Advanced search
Publication Cover
Critical Reviews in Solid State and Materials Sciences Volume 32, 2007 - Issue 1-2
Submit an article Journal homepage
1,158
Views
68
CrossRef citations to date
0
Altmetric
Original Articles

Formation, Dynamics, and Characterization of Nanostructures by Ion Beam Irradiation

S. Dhara Materials Science Division, Indira Gandhi Centre for Atomic Research, Kalpakkam, Tamil Nadu, 603 102, India
Pages 1-50 | Published online: 17 May 2007

REFERENCES

  • Briant , C. E. , Theobald , B. C. , White , J. W. , Bell , L. K. and Mingos , D. M. P. 1981 . Synthesis and X-ray structural characterization of the centred icosahedral gold cluster compound [Au13(PMe2Ph)10Cl2](PF6)3; the realization of a theoretical prediction . J. Chem. Soc. Chem. Commun. , 4 : 201
  • Cullis , A. G. and Canham , L. T. 1991 . Visible light emission due to quantum size effects in highly porous crystalline silicon . Nature , 353 : 335
  • Chang , Y. K. , Hsieh , H. H. , Pong , W. F. , Tsai , M.-H. , Chien , F. Z. , Tseng , P. K. , Chen , L. C. , Wang , T. Y. , Chen , K. H. , Bhusari , D. M. , Yang , J. R. and Lin , S. T. 1999 . Quantum confinement effect in nano-diamond . Phys. Rev. Lett. , 82 : 5377
  • Hu , M. S. , Chen , H. L. , Shen , C. H. , Hong , L. S. , Huang , B. R. , Chen , K. H. and Chen , L. C. 2006 . Photosensitive gold nanoparticle-embedded dielectric nanowires . Nat. Mater. , 5 : 102
  • Klein , D. , Roth , R. , Lim , A. K. L. , Alivisatos , A. P. and McEuen , P. 1997 . A single-electron transistor made from a cadmium selenide nanocrystal . Nature , 389 : 699
  • Takagi , M. 1954 . Electron-diffraction study of liquid-solid transition of thin metal films . J. Phys. Soc. Jpn. , 9 : 359
  • Novotny , V. , Meincke , P. P. M. and Watson , J. H. P. 1972 . Effect of size and surface on specific heat of small lead particles . Phys. Rev. Lett. , 28 : 901
  • Szlufarska , I. , Nakano , A. and Vashishta , P. 2005 . A crossover in the mechanical response of nanocrystalline ceramics . Science , 309 : 911
  • Cox , A. J. , Louderback , J. G. and Bloomfield , L. A. 1993 . Experimental observation of magnetism in rhodium clusters . Phys. Rev. Lett. , 71 : 923
  • Chopra , K. L. 1969 . Thin Film Phenomena , McGraw-Hill Book Co. .
  • Szenes , G. 1995 . General features of latent track formation in magnetic insulators irradiated with swift heavy ions . Phys. Rev. B , 51 : 8026
  • Was , G. S. 1990 . Ion beam modification of metals: compositional and microstructural changes . Prog. in Surf. Sci. , 32 : 211
  • Reiss , S. and Heinig , K. H. 1994 . Ostwald ripening during ion beam synthesis—a computer simulation for inhomogeneous systems . Nucl. Instru. and Meth. in Phys. Res. B , 84 : 229
  • Borodin , V. A. , Heinig , K. H. and Reiss , S. 1997 . Self-organization kinetics in finite precipitate ensembles during coarsening . Phys. Rev. B , 56 : 5332
  • Strobel , M. , Heinig , K. H. , Moeller , W. , Meldrum , A. , Zhou , D. S. , White , C. W. and Zhur , R. A. 1999 . Ion beam synthesis of gold nanoclusters in SiO2: Computer simulations versus experiments . Nucl. Instru. and Meth. in Phys. Res. B , 147 : 343
  • Strobel , M. , Heinig , K. H. and Moeller , W. 2001 . Three-dimensional domain growth on the size scale of the capillary length: Effective growth exponent and comparative atomistic and mean-field simulations . Phys. Rev. B , 64 : 245422
  • Krishnan , K. 1980 . Kinetics of void-lattice formation in metals . Nature , 287 : 420
  • Wang , Y.-L. and Shao , Z. 1991 . “ Design principles of an optimized focused ion beam system ” . In Advances in Electronics and Electron Physics , Edited by: Hawkes , P. W. Vol. 81 , 177 Boston : Academic . and references therein
  • Barabasi , A.-L. and Stanley , H. E. 1995 . Fractal Concepts in Surface Growth , Cambridge : Cambridge University Press .
  • Rangelow , I. W. 2003 . Critical tasks in high aspect ratio silicon dry etching for microelectromechanical systems . J. Vac. Sci. & Technol. A , 21 : 1550
  • Wu , J. S. , Dhara , S. , Wu , C. T. , Chen , K. H. , Chen , Y. F. and Chen , L. C. 2002 . Growth and optical properties of self-organized Au2Si nanospheres peapoded in silicon oxide nanowire . Adv. Mater. , 14 : 1847
  • Wu , J. S. , Chen , Y. F. , Dhara , S. , Wu , C. T. , Chen , K. H. and Chen , L. C. 2003 . Interface energy of Au7Si grown in the interfacial layer of truncated hexagonal dipyramidal Au nanoislands on poly-Si . Appl. Phys. Lett. , 82 : 4468
  • Chen , L. C. , Wen , C. Y. , Liang , C. H. , Chen , W. K. , Hong , K. J. , Cheng , H. C. , Shen , C. S. , Wu , C. T. and Chen , K. H. 2002 . Controlling steps during early stages of the aligned growth of carbon nanotubes using microwave plasma enhanced chemical vapor deposition . Adv. Func. Mater. , 12 : 687 L. Delzeit, C. V. Nguyen, B. Chen, R. Stevens, A. Cassell, J. Han, and M. Meyyappan, Multiwalled carbon nanotubes by chemical vapor deposition using multilayered metal catalysts, J. Phys. Chem. B 106, 5629 (2002)
  • Wu , W.-T. , Chen , K.-H. and Hsu , C.-M. 2006 . Growth of carbon nanotubes on cobalt catalyst film using electron cyclotron resonance chemical vapour deposition without thermal heating . Nanotechnology , 17 : 4542 Adv. Func. Mater. 12, 687 (2002); L. Delzeit, C. V. Nguyen, B. Chen, R. Stevens, A. Cassell, J. Han, and M. Meyyappan, Multiwalled carbon nanotubes by chemical vapor deposition using multilayered metal catalysts, J. Phys. Chem. B 106, 5629 (2002)
  • Chen , L. C. , Chen , K. H. and Chen , C. C. 2003 . “ Group III- and Group IV-Nitride Nanorods and Nanowires ” . In Nanowires and Nanobelts—Materials, Properties and Devices, Vol. 1: Metal and Semiconductor Nanowires , Edited by: Wang , Z. L. 257 Kluwer Academic Publisher . Chapter 9
  • Chattopadhyay , S. , Lo , H.-C. , Hsu , C.-H. , Chen , L.-C. and Chen , K.-H. 2005 . Surface-enhanced Raman spectroscopy using self-assembled silver nanoparticles on silicon nanotips . Chem. Mater. , 17 : 553
  • Chattopadhyay , S. , Shi , S. C. , Lan , Z. H. , Chen , C. F. , Chen , K. H. and Chen , L. C. 2005 . Molecular sensing with ultrafine silver crystals on hexagonal aluminum nitride nanorod template . J. Am. Chem. Soc. , 127 : 2820
  • Kim , J. K. , Cha , K. M. , Kang , J. H. , Kim , Y. , Yi , J.-Y. , Chung , T. H. and Bark , H. J. 2004 . Area-selective formation of Si nanocrystals by assisted ion-beam irradiation during dual-ion-beam deposition . Appl. Phys. Lett. , 85 : 1595
  • Hyun , C. , Lee , A. K. H. and Lozanne , A. de . 2006 . Focused ion beam deposition of Co71Cr17Pt12 and Ni80Fe20 on tips for magnetic force microscopy . Nanotechnology , 17 : 921
  • Chen , L. C. , Lu , T. R. , Bhusari , D. M. , Wu , J. J. , Chen , K. H. , Kuo , C. T. and Chen , T. M. 1998 . The use of a bio-molecular target for crystalline carbon nitride film deposition by ar ion-beam sputtering without other source of nitrogen . Appl. Phys. Lett. , 72 : 3449
  • Lu , T. R. , Chen , L. C. , Chen , K. H. , Bhusari , D. M. , Chen , T. M. and Kuo , C. T. 1998 . Sputtering process of carbon nitride films by using a novel bio-molecular C-N containing target . Thin Solid Films , 332 : 74
  • Vandoni , G. , Felix , C. , Monot , R. , Buttet , J. and Harbich , W. 1994 . Mass-selected deposition of Ag7 on Pd(100): Evidence for implantation and strong fragmentation . Chem. Phys. Lett. , 229 : 51
  • Perez , A. , Melinon , P. , Dupuis , V. , Jensen , P. , Prevel , B. , Tuaillon , J. , Bardotti , L. , Martet , C. , Treilleux , M. , Broyer , M. , Pellarin , M. , Vialle , J. and Palpant , B. 1997 . Cluster assembled materials: A novel class of nanostructured solids with original structures and properties . J. Phys. D , 30 : 709
  • Palpant , B. , Prevel , B. , Lerme , J. L. , Cottencin , E. , Pellarin , M. , Treilleux , M. , Perez , A. , Vialle , J. L. and Broyer , M. 1998 . Optical properties of gold clusters in the size range 2–4 nm . Phys. Rev. B , 57 : 1963
  • Schaefer , D. M. , Patil , A. , Andres , R. P. and Reifenberger , R. 1995 . Elastic properties of individual nanometer-size supported gold clusters . Phys. Rev. B , 51 : 5322
  • Jensen , P. 1999 . Growth of nanostructures by cluster deposition: Experiments and simple models . Rev. of Mod. Phys. , 71 : 1695
  • Ziegler , J. F. , Biersack , J. P. and Littmark , U. 1985 . The stopping and range of ions in solids , New York : Pergamon . http://www.srim.org/SRIM/SRIM2006.htm
  • Motayed , A. , Melngailis , J. and Mohammad , S. N. 2006 . Fabrication of GaN-based nanoscale device structures utilizing focused ion beam induced Pt deposition . J. Appl. Phys. , 100 : 024306
  • Valizadeh , S. , Abid , M. , Hernandez-Ramirez , F. , Romano Rodriguez , A. , Hjort , K. and Schweitz , J. A. 2006 . Template synthesis and forming electrical contacts to single Au nanowires by focused ion beam techniques . Nanotechnology , 17 : 1134
  • Nam , C. Y. , Kim , J. Y. and Fischer , J. E. 2005 . Focused-ion-beam platinum nanopatterning for GaN nanowires: Ohmic contacts and patterned growth . Appl. Phys. Lett. , 86 : 193112
  • Hiruma , K. , Haraguchi , K. , Yazawa , M. , Madokoro , Y. and Katsuyama , T. 2006 . Nanometre-sized GaAs wires grown by organo-metallic vapour-phase epitaxy . Nanotechnology , 17 : S369
  • Ross , I. M. , Luxmoore , I. J. , Cullis , A. G. , Orr , J. , Buckl , P. D. and Jefferson , J. H. 2006 . Characterisation of tungsten nano-wires prepared by electron and ion beam induced chemical vapour deposition . J. of Phys.: Conf. Series , 26 : 363
  • Nagata , T. , Ahmet , P. , Sakuma , Y. , Sekiguchi , T. and Chikyow , T. 2005 . GaN nanostructure fabrication by focused-ion-beam-assisted chemical vapor deposition . Appl. Phys. Lett. , 87 : 013103
  • Tseng , A. A. 2005 . Recent developments in nanofabrication using focused ion beams . Small , 1 : 924
  • Das , A. , Dhara , S. and Patnaik , A. 1999 . Fractal nature of π-bonded nanocrystalline clusters: A N+ beam induced phenomenon in poly(2,6-dimethyl-1,4-phenylene Oxide) . Phys. Rev. B , 59 : 11069 A. Das, S. Dhara, and A. Patnaik, Electron transport across fractal-like nanocrystalline clusters in N+ ion-beam induced poly (phenylene oxide), J. Chem. Phys. 114, 8573 (2001)
  • Dhara , S. , Panigrahi , B. K. , Nair , K. G. M. , Magudapathy , P. , Saibaba , S. and Reddy , G. L. N. 2001 . A novel route of synthesis of aluminum nano-aggregates: A ion beam modification in metal-organic complex . J. Phys. D : Appl. Phys. , 34 : 243
  • Phillips , C. S. G. and Phillips , R. J. P. 1966 . Inorganic Chemistry , Vol. I , 242 London : Oxford University Press .
  • D'Urso , L. , Nicolosi , V. , Compagnini , G. and Puglisi , O. 2004 . Size distribution of silver nanoclusters induced by ion, electron, laser beams and thermal treatments of an organometallic precursor . Appl. Surf. Sci. , 226 : 131
  • Harriot , L. R. , Cummings , K. D. , Gross , M. E. and Brown , W. L. 1986 . Decomposition of palladium acetate films with a microfocused ion beam . Appl. Phys. Lett. , 49 : 1661
  • Compagnini , G. 2004 . Noble metal particles for polymer-based nanostructured thin films . Appl. Surf. Sci. , 226 : 216
  • Pivin , J. C. , Vincent , E. , Esnouf , S. and Dubus , M. 2004 . Magnetic properties of Fe and Ni nanoparticles formed in triethoxysilane films by ion irradiation or thermal processing . Eur. Phys. J. B , 37 : 329
  • Zhang , W. J. , Sun , X. S. , Peng , H. Y. , Wang , N. , Lee , C. S. , Bello , I. and Lee , S. T. 2000 . Diamond nucleation enhancement by direct low energy ion-beam deposition . Phys. Rev. B , 61 : 5579 – 5586 . X. S., X. S. Sun, W. J. Wang, N. Wang, I. Bello, C. S. Lee, and S. T. Lee, Formation of crystalline diamond by ion beam deposition, J. Non-Crys. Solids 254, 174 (1999)
  • Matsumoto , T. , Kiuchi , M. , Sugimoto , S. and Goto , S. 2005 . Self-assembled nano-tiles of zinc-blende SiC on Si(100) using organometallic ion beam deposition with simultaneous electron beam irradiation . Surf. & Coat. Technol. , 200 : 1436
  • Schmid , G. , ed. 1993 . Clusters and Colloids , Weinheim : VCH .
  • Kreibig , U. and Volmer , M. 1995 . Optical Properties of Metal Clusters , Berlin : Springer .
  • Clarke , L. , Wybourne , M. N. , Yan , M. , Cai , S. X. and Keana , J. F. W. 1997 . Transport in gold cluster structures defined by electron-beam lithography . Appl. Phys. Lett. , 71 : 617
  • Thomas , M. D. R. , Ahmed , H. , Sanderson , K. M. , Shephard , D. S. , Johnson , B. F. and Zhou , W. 2000 . Electron-beam-induced conduction in a ruthenium carbonyl nanoparticle polymer . Appl. Phys. Lett. , 76 : 1773
  • Stark , T. K. , Mayer , T. M. , Griffins , D. P. and Russell , P. E. 1991 . Electron beam induced metalization of palladium acetate . J. Vac. Sci. Technol. B , 9 : 3475
  • Tanaka , M. , Chu , F. , Shimojo , M. , Takeguchi , M. , Mitsuishi , K. and Furuya , K. 2005 . Position- and size-controlled fabrication of iron silicide nanorods by electron-beam-induced deposition using an ultrahigh-vacuum transmission electron microscope . Appl. Phys. Lett. , 86 : 183104
  • Utke , I. , Hoffmann , P. , Dwir , B. , Leifer , K. , Kapon , E. and Doppelt , P. 2000 . Focused electron beam induced deposition of gold . J. Vac. Sci. & Technol. B , 18 : 3168
  • Asaoka , N. , Muto , S. and Tanabe , T. 2001 . Formation of Si clusters in electron-irradiated SiC studied by electron energy-loss spectroscopy . Diamond and Related Materials , 10 : 1251
  • Fujita , S. , Maruno , S. , Watanabe , H. and Ichikawa , M. 2000 . Nanostructure fabrication using the selective thermal desorption of SiO2 induced by electron beams . Appl. Phys. Lett. , 69 : 638
  • Johnson , S. , Markwitz , A. , Rudolphi , M. and Baumann , H. 2005 . Patterned growth of self-assembled silicon nanostructures by ion implantation and electron beam annealing . J. Vac. Sci. Technol. B , 23 : 1459
  • Johnson , S. , Markwitz , A. , Rudolphi , M. and Baumann , H. 2004 . Nanostructuring of silicon (100) using electron beam rapid thermal annealing . J. Appl. Phys. , 96 : 605
  • Ribeiro , C. , Lee , E. J. H. , Giraldi , T. R. , Aguiar , R. , Longo , E. and Leite , E. R. 2005 . In situ oriented crystal growth in a ceramic nanostructured system . J. Appl. Phys. , 97 : 024313
  • Caccavale , F. , De Marchi , G. , Gonella , F. , Mazzoldi , P. , Meneghini , C. , Quaranta , A. , Arnold , G. W. , Battaglin , G. and Mattei , G. 1995 . Irradiation-induced Ag-colloid formation in ion-exchanged soda-lime glass . Nucl. Instru. and Meth. in Phys. Res. B , 96 : 382
  • Matteson , S. 1981 . Atomic mixing in ion impact: A collision cascade model . Appl. Phys. Lett. , 39 : 288
  • French , R. H. , Ling , J. W. , Ohuchi , F. S. and Chen , C. T. 1991 . Electronic structure of β-BaB2O4 and LiB3O5 nonlinear optical crystals . Phy. Rev. B , 44 : 8496
  • Baibich , M. N. , Broto , J. M. , Fert , A. , Nguen Van Dau , N. , Petroff , F. , Etienne , P. , Greuzet , G. , Friedrich , A. and Chazelas , J. 1989 . Giant magnetoresistance of (001)Fe/(001)Cr magnetic superlattices . Phys. Rev. Lett. , 61 : 2472
  • Garrido , F. , Dran , J. C. , Thome , L. , Meneghini , C. , Gonella , F. and Quaranta , A. 1996 . High-energy ion-beam mixing: A new route to form metallic nanoclusters in a dielectric matrix . Nucl. Instru. and Meth. in Phys. Res. B , 115 : 561
  • Thome , L. and Garrido , F. 1997 . Formation of metallic nanophases in insulators by high-energy ion-beam mixing . Nucl. Instru. and Meth. in Phys. Res. B , 121 : 237
  • Ila , D. , Zimmerman , R. L. , Muntele , C. I. , Thevenard , P. , Orucevic , F. , Santamaria , C. L. , Guichard , P. S. , Schiestel , S. , Carosella , C. A. , Hubler , G. K. , Poker , D. B. and Hensley , D. K. 2002 . Nano-cluster engineering . Nucl. Instru. and Meth. in Phys. Res. B , 191 : 416
  • Pivin , J. C. and Rizza , G. 2000 . Dual mechanism of ion beam mixing of noble metals with oxide matrices . Nucl. Instru. and Meth. in Phys. Res. B , 166–167 : 115
  • Pivin , J. C. , Garcia , M. A. , Hofmeister , H. , Martucci , A. , Vassileva , M. S. , Nikolaeva , M. , Kaitasov , O. and Llopis , J. 2002 . Optical properties of silver clusters formed by ion irradiation . Eur. Phys. J. D , 20 : 251
  • Pivin , J. C. 2000 . Mixing of noble metals in oxides and formation of colloids by ion irradiation . Mater. Sci. Eng. A , 293 : 30
  • Hu , X. , Cahill , D. G. and Averback , R. S. 2002 . Burrowing of Pt nanoparticles into SiO2 during ion-beam irradiation . J. Appl. Phys. , 92 : 3995
  • Gangopadhyay , P. , Kesavamoorthy , R. , Nair , K. G. M. and Dhandapani , R. 2000 . Raman scattering studies on silver nanoclusters in a silica matrix formed by ion-beam mixing . J. Appl. Phys. , 88 : 4975
  • Dhara , S. , Kesavamoorthy , R. , Magudapathy , P. , Premila , M. , Panigrahi , B. K. , Nair , K. G. M. , Wu , C. T. and Chen , K. H. 2003 . Quasiquenching size effects in gold nanoclusters embedded in silica matrix . Chem. Phy. Lett. , 370 : 254
  • De Marchi , G. , Gonella , F. , Mazzoldi , P. , Battaglin , G. and Knystautas , E. J. 1996 . C. and Meneghini, Non-linear glasses by metal cluster formation: Synthesis and properties . J. Non-Cryst. Sol. , 196 : 79
  • Magudapathy , P. , Gangopadhyay , P. , Panigrahi , B. K. , Nair , K. G. M. and Dhara , S. 2001 . Electrical transport studies of Ag nano-clusters embedded in glass matrix . Physica B , 299 : 142
  • Manikandan , D. , Mohan , S. , Magudapathy , P. and Nair , K. G. M. 2003 . Blue shift of plasmon resonance in Cu and Ag ion-exchanged and annealed soda-lime glass: An optical absorption study . Physica B , 325 : 86
  • Pivin , J. C. , Roger , G. , Garcia , M. A. , Singh , F. and Avasthi , D. K. 2004 . Nucleation and growth of Ag clusters in silicate glasses under ion irradiation . Nucl. Instru. and Meth. in Phys. Res. B , 215 : 373
  • Battaglin , G. , Cattaruzza , E. , Gonella , F. , Polloni , R. , D'Acapito , F. , Colonn , S. , Mattei , G. , Maurizio , C. , Mazzoldi , P. , Padovan , S. , Sada , C. , Quaranta , A. and Longo , A. 2003 . Silver nanocluster formation in ion-exchanged glasses by annealing, ion beam and laser beam irradiation: An EXAFS study, Nucl . Nucl. Instru. and Meth. in Phys. Res. B , 200 : 185
  • Manikandan , D. , Mohan , S. and Nair , K. G. M. 2004 . Optical absorption of copper nanocluster composite soda-lime glass synthesized by binary ion-exchange and ion irradiation . Mater. Lett. , 58 : 907 D. Manikandan, S. Mohan, and K. G. M. Nair, Photoluminescence of embedded copper nanoclusters in soda-lime glass, Mater. Lett. 57, 1391 (2003)
  • Hosono , H. , Matsunami , N. , Kudo , A. and Ohtsuka , T. 1994 . Novel approach for synthesizing Ge fine particles embedded in glass by ion implantation: Formation of Ge nanocrystal in SiO2-GeO2 glasses by proton implantation . Appl. Phys. Lett. , 65 : 1632 H. Hosono, K. Kawamura, Y. Kameshima, and H. Kawazoe, Nanometer-sized Ge particles in GeO2–SiO2 glasses produced by proton implantation: Combined effects of electronic excitation and chemical reaction, J. Appl. Phys. 82, 4232 (1997)
  • Manikandan , D. , Mohan , S. , Magudapathy , P. and Nair , K. G. M. 2002 . Irradiation induced dissolution of Cu and growth Ag nanoclusters in Cu/Ag ion exchanged soda-lime glass . Nucl. Instru. and Meth. in Phys. Res. B , 198 : 73
  • Cai , M. , Veres , T. , Schiettekatte , F. , Roorda , S. and Cochrane , R. W. 2004 . Ion-beam irradiation of Co/Cu nanostructures: Effects on giant magnetoresistance and magnetic properties . J. Appl. Phys. , 95 : 2006
  • Noetzel , J. , Rössler , U. K. , Tselev , A. , Prokert , F. , Eckert , D. , Müller , K. H. , Wieser , E. and Möller , W. 2000 . Preparation of granular Co/Cu by ion-beam mixing of laser-deposited multilayers . Appl. Phys. A , 71 : 105
  • Veres , T. , Cai , M. , Germain , S. , Rouabhi , M. , Schiettekatte , F. and Roorda , S. 2001 . Ion-beam modification of Co/Ag multilayers I: Structural evolution and magnetic response . J. Appl. Phys. , 87 : 8504
  • Enrique , R. A. and Bellon , P. 2001 . Self-organized Cu–Ag nanocomposites synthesized by intermediate temperature ion-beam mixing . Appl. Phys. Lett. , 78 : 4178
  • Sosa , A. C. , Schaaf , P. , Bolse , W. , Lieb , K. , Gimbel , M. , Geyer , U. and Tosello , C. 1996 . Irradiation effects in Ag-Fe bilayers: Ion-beam mixing, recrystallization, and surface roughening . Phys. Rev. B , 53 : 14795
  • Amirthapandian , S. , Panigrahi , B. K. , Srivastava , A. K. , Dhara , S. , Gupta , A. , Sastry , V. S. , Nandedkar , R. V. , Nair , K. G. M. and Narayanasamy , A. 2004 . Ion-beam mixing in an immiscible Fe/Ag multilayer film . J. Appl. Phys. , 95 : 5295
  • Pacaud , J. , Jaouen , C. and Gladyszewski , G. 1999 . Irradiation effects in Cu/W multilayers: Ion beam mixing and structural evolution . J. Appl. Phys. , 86 : 4847
  • Neubauer , M. , Lieb , K. P. , Schaaf , P. and Urmacher , M. 1996 . Ion-beam mixing of Ag/Fe and In/Fe layers studied by hyperfine techniques . Phys. Rev. B , 53 : 10237
  • Averback , R. S. , Peak , D. and Thompson , L. J. 1986 . Ion-beam mixing in pure and in immiscible copper bilayer systems . Appl. Phys. A , 39 : 59
  • Patankar , J. , Bhandarkar , Y. V. , Kanetkar , S. M. , Ogale , S. B. and Bhide , V. G. 1985 . Ion beam induced atomic mixing in a single interface Fe-Ge structure: Conversion electron Mössbauer Spectroscopy study . Nucl. Instru. and Meth. in Phys. Res. B , 7/8 : 720
  • Gonella , F. , Mattei , G. , Mazzoldi , P. , Sada , C. , Battaglin , G. and Cattaruzza , E. 1999 . Au–Cu alloy nanoclusters in silica formed by ion implantation and annealing in reducing or oxidizing atmosphere . Appl. Phys. Lett. , 75 : 55
  • Battaglin , G. , Catalano , M. , Cattaruzza , E. , D'Acapito , F. , De Julian Fernandez , C. , De Marchi , G. , Gonella , F. , Mattei , G. , Maurizio , C. , Mazzoldi , P. , Miotello , A. and Sada , C. 2001 . Influence of annealing atmosphere on metal and metal alloy nanoclusters produced by ion implantation in silica . Nucl. Instru. and Meth. in Phys. Res. B , 178 : 176
  • Cattaruzza , E. , D'Acapito , F. , Gonella , F. , Longo , A. , Martorana , A. , Mattei , G. , Maurizio , C. and Thiaudiere , D. 2000 . GISAXS study of Cu-Ni alloy clusters obtained by double ion implantation in silicate glasses . J. Appl. Cryst. , 33 : 740
  • de Julian Fernandez , C. , Sangregorio , C. , Mattei , G. , Maurizio , C. , Battaglin , G. , Gonella , F. , Lascialfari , A. , Lo Russo , S. , Gatteschi , D. , Mazzoldi , P. , Gonzalez , J. M. and D'Acapito , F. 2001 . Magnetic properties of Co and Ni based alloy nanoparticles dispersed in a silica matrix . Nucl. Instru. and Meth. in Phys. Res. B , 175–177 : 479
  • Zhu , S. , Sun , K. , Zhang , Q. Y. , Zu , X. T. , Wang , L. M. and Ewing , R. C. 2003 . Structural and magnetic characterization of CoxNi1-x nanoparticles in yttria-stabilized zirconia single crystals . J. Appl. Phys. , 94 : 5648
  • Hayashi , N. , Sakamoto , I. , Wakabayashi , H. and Toriyama , T. 2003 . Formation of nanosized Fe–Co alloys in α -Al2O3 crystals by ion implantation . J. Appl. Phys. , 94 : 2597
  • White , C. W. , Withrow , S. P. , Sorge , K. D. , Meldrum , A. , Budai , J. D. , Thompson , J. R. and Boatner , L. A. 2003 . Oriented ferromagnetic Fe-Pt alloy nanoparticles produced in Al2O3 by ion-beam synthesis . J. Appl. Phys. , 96 : 5656
  • Zhao , J. P. , Meng , Y. , Huang , D. X. , Rayabarapu , R. K. and Rabalais , J. W. 2006 . Ti–Sn alloy nanodot composites embedded in single-crystal SiO2 by low energy dynamic coimplantation . J. Appl. Phys. , 100 : 084308
  • Mattei , G. 2002 . Alloy nanoclusters in dielectric . Nucl. Instru. and Meth. in Phys. Res. B , 191 : 323
  • Zuhr , R. A. , Magruder , R. H. III , Anderson , T. A. and Wittig , J. E. 1994 . Mat. Res. Soc. Symp. Proc. , 316 : 457
  • Borsella , E. , Garcia , M. A. , Mattei , G. , Maurizio , C. , Mazzoldi , P. , Cattaruzza , E. , Gonella , F. , Battaglin , G. , Quaranta , A. and D'Acapito , F. 2001 . Synthesis of GaN quantum dots by ion implantation in dielectrics . J. Appl. Phys. , 90 : 4467
  • Wolk , J. A. , Yu , K. M. , Bourret-Courchesne , E. D. and Johnson , E. 1997 . Synthesis of GaN nanocrystals by sequential ion implantation . Appl. Phys. Lett. , 70 : 2268
  • Karl , H. , Grobhans , I. and Stritzker , B. 2005 . Combinatorial ion beam synthesis of semiconductor nanoclusters . Meas. Sci. Technol. , 16 : 32
  • Mu , R. , Henderson , D. O. , Tung , Y. S. , Ueda , A. , Hall , C. , Collins , W. E. , White , C. W. , Zuhr , R. H. and Zhu , J. G. 1996 . Electronic and vibrational spectra of InP quantum dots formed by sequential ion implantation . J. Vac. Sci. Technol. , 14 : 1482
  • Bonafos , C. , Garrido , B. , López , M. , Romano-Rodriguez , A. , Gonzáles-Varona , O. , Pérez-Rodriguez , A. and Morante , J. R. 1998 . Ion-beam synthesis and structural characterization of ZnS nanocrystals in SiO2 . Appl. Phys. Lett. , 72 : 3488
  • Meldrum , A. , White , C. W. , Boatner , L. A. , Zuhr , R. A. , Anderson , I. M. , Sonder , E. and Henderson , D. O. 1999 . Microstructure of sulfide nanocrystals formed by ion-implantation . Nucl. Instru. and Meth. in Phys. Res. B , 148 : 957
  • White , C. W. , Budai , J. D. , Withrow , S. P. , Zhu , J. G. , Sonder , E. , Zuhr , R. A. , Meldrum , A. , Hembree , D. M. , Henderson , D. O. and Prawer , S. 1998 . Encapsulated semiconductor nanocrystals formed in insulators by ion beam synthesis . Nucl. Instru. and Meth. in Phys. Res. B , 141 : 228
  • Ando , M. , Kanemitsu , Y. , Kushida , T. , Matsuda , K. , Saiki , T. and White , C. W. 2001 . Sharp photoluminescence of CdS nanocrystals in Al2O3 matrices formed by sequential ion implantation . Appl. Phys. Lett. , 79 : 539
  • White , C. W. , Budai , J. D. , Zhu , J. G. , Withrow , S. P. , Zuhr , R. A. , Hembree , D. M. , Henderson , D. O. , Ueda , A. , Tung , Y. S. , Mu , R. and Magruder , R. H. 1996 . GaAs nanocrystals formed by sequential ion implantation . J. Appl. Phys. , 79 : 1876
  • White , C. W. , Budai , J. D. , Zhu , J. G. , Withrow , S. P. and Aziz , M. J. 1996 . Ion-beam synthesis and stability of GaAs nanocrystals in silicon . Appl. Phys. Lett. , 68 : 2389
  • Kanemitsu , Y. , Tanaka , H. , Fukunishi , Y. , Kushida , T. , Min , K. S. and Atwater , H. A. 2000 . Visible light emission from GaAs nanocrystals in SiO2 films fabricated by sequential ion implantation . Phys. Rev B , 62 : 5100
  • White , C. W. , Budai , J. D. , Zhu , J. G. , Withrow , S. P. , Hembree , D. M. , Henderson , D. O. , Ueda , A. , Tung , Y. S. and Mu , R. 1996 . Ion solid interactions for materials modification and processing , Mat. Res. Soc. Symp. Proc. Edited by: Poker , D. B. , Ila , D. , Cheng , Y. T. , Harriott , L. R. and Sigmon , T. W. Vol. 396 , 397 Pittsburgh , PA : Materials Research Society .
  • Achtstein , A. W. , Karl , H. and Stritzker , B. 2006 . Field induced photoluminescence quenching and enhancement of CdSe nanocrystals embedded in SiO2 . Appl. Phys. Lett. , 89 : 061103
  • Ekimov , A. , Gurevich , S. , Kudriavtsev , I. , Lublinskaya , O. , Merkulov , A. , Osinskii , A. , Vatnik , M. , Gandais , M. and Wang , Y. 1995 . Growth of CdSe nanocrystals in ion-implanted SiO2 films . J. Cryst. Growth. , 151 : 38
  • Tchebotareva , A. , Brebner , J. L. , Roorda , S. , Desjardins , P. and White , C. W. 2002 . Structural properties of InAs nanocrystals formed by sequential implantation of In and As ions in the Si (100) matrix . J. Appl. Phys. , 92 : 4664
  • Gea , L. A. , Budai , J. D. and Boatner , L. A. 1999 . Formation and phase transition of VO2 precipitates embedded in sapphire . J. Mater. Res. , 14 : 2602
  • Gea , L. A. , Boatner , L. A. , Rankin , J. and Budai , J. D. 1995 . Beam-solid interactions for materials synthesis and characterization , Mat. Res. Soc. Symp. Proc. Edited by: Jacobson , D. C. , Luzzi , D. E. , Heinz , T. F. and Iwaki , M. Vol. 354 , 269 Pittsburgh , PA : Materials Research Society .
  • White , C. W. , Sonder , E. , Budai , J. D. , Meldrum , A. , Zuhr , R. A. , Withrow , S. P. and Henderson , D. O. 1999 . Microstructural processes in irradiated materials , Mat. Res. Soc. Symp. Proc. Edited by: Zinkle , S. J. , Lucas , G. , Ewing , R. C. and Williams , J. Vol. 540 , 219 Pittsburgh , PA : Materials Research Society .
  • Anderson , T. S. , Magruder , R. H. , Zuhr , R. A. and Wittig , J. E. 1996 . Optical properties of multicomponent nanometer dimension metal colloids formed in silica by sequential ion implantation of In and Ag and In and Cu . J. Elect. Mater. , 25 : 27
  • Tadaki , T. , Murai , Y. , Koreeda , A. , Nakata , Y. and Hirotsu , Y. 1996 . Structure and phase transformation of nano-scale particles of Fe-Ni alloys . Mater. Sci. Eng. A , 217/218 : 235
  • Xiang , X. , Zu , X. T. , Zhu , S. , Wei , Q. M. , Zhang , C. F. , Sun , K. and Wang , L. M. 2006 . ZnO nanoparticles embedded in sapphire fabricated by ion implantation and annealing . Nanotechnology , 17 : 2636 J. K. Lee, C. R. Tewell, R. K. Schulze, M. Nastasi, D. W. Hamby, D. A. Lucca, H. S. Jung, and K. S. Hong, Synthesis of ZnO nanocrystals by subsequent implantation of Zn and O species, Appl. Phys. Lett. 86, 183111 (2005)
  • White , C. W. , Budai , J. D. , Zhu , J. G. , Withrow , S. P. , Zuhr , R. A. , Chen , Y. , Hembree , D. M. , Magruder , R. H. and Henderson , D. O. 1995 . Microcrystalline and nanocrystalline semiconductors , Mat. Res. Soc. Symp. Proc. 358 Edited by: Collins , R. W. , Tsai , C. C. , Hirose , M. , Koch , F. and Brus , L. 169
  • Meldrum , A. , Boatner , L. A. , White , C. W. and Ewing , R. C. 2000 . Ion irradiation effects in nonmetals: Formation of nanocrystals and novel microstructures . Mat. Res. Innovat. , 3 : 190
  • Anderson , T. S. , Magruder , R. H. III , Wittig , J. E. , Kinser , D. L. and Zuhr , R. A. 2000 . Fabrication of Cu-coated Ag nanocrystals in silica by sequential ion implantation . Nucl. Instru. and Meth. in Phys. Res. B , 171 : 401
  • Kluth , P. , Hoy , B. , Johannessen , B. , Dunn , S. G. , Foran , G. J. and Ridgway , M. C. 2006 . Co–Au core-shell nanocrystals formed by sequential ion implantation into SiO2 . Appl. Phys. Lett. , 89 : 153118
  • Ren , F. , Guo , L. P. , Shi , Y. , Chen , D. L. , Wu , Z. Y. and Jiang , C. Z. 2006 . Formation of Zn–ZnO core–shell nanoclusters by Zn/F sequential ion implantation . J. Phys. D: Appl. Phys. , 39 : 488
  • Strobel , M. , Heinig , K.-H. and Moller , W. 1999 . Can core/shell nanocrystals be formed by sequential ion implantation? Predictions from kinetic lattice Monte Carlo simulations . Nucl. Instru. and Meth. in Phys. Res. B , 148 : 104
  • Kuriyama , K. , Kondo , H. , Hayashi , N. , Ogura , M. , Hasegawa , M. , Kobayashi , N. , Takahashi , Y. and Watanabe , S. 2001 . Nitrogen-ion-implantation synthesis of wurtzite GaN in GaP . Appl. Phys. Lett. , 79 : 2546
  • Dhara , S. , Magudapathy , P. , Kesavamoorthy , R. , Kalavathi , S. , Nair , K. G. M. , Hsu , G. M. , Chen , L. C. , Chen , K. H. , Santhakumar , K. and Soga , T. 2005 . Optical characterization of GaN by N+ implantation into GaAs at elevated temperature . Appl. Phys. Lett. , 87 : 261915
  • Lin , X. W. S. , Behar , M. S. , Maltez , R. S. , Swider , W. S. , Liliental-Weber , Z. S. and Washburn , J. S. 1995 . Synthesis of GaN by N ion implantation in GaAs (001) . Appl. Phys. Lett. , 67 : 2699
  • Weng , X. , Ye , W. , Clarke , S. J. , Goldman , R. S. , Rotberg , V. , Daniel , A. and Clarke , R. 2005 . Matrix-seeded growth of nitride semiconductor nanostructures using ion beams . J. Appl. Phys. , 97 : 064301
  • Dhara , S. , Magudapathy , P. , Kesavamoorthy , R. , Kalavathi , S. , Sastry , V. S. , Nair , K. G. M. , Hsu , G. M. , Chen , L. C. , Chen , K. H. , Santhakumar , K. and Soga , T. 2006 . Nitrogen ion beam synthesis of InN in InP(100) at elevated temperature . Appl. Phys. Lett. , 88 : 241904
  • Prakash , R. , Amirthapandian , S. , Phase , D. M. , Deshpande , S. K. , Kesavamoorthy , R. and Nair , K. G. M. 2006 . Study of ion beam induced mixing in nano-layered Si/C multilayer structures . Nucl. Instru. and Meth. in Phys. Res. B , 244 : 283
  • Ishikawa , J. , Tsuji , H. , Toyota , Y. , Gotoh , Y. , Matsuda , K. , Tanjyo , M. and Sakaki , S. 1995 . Negative-Ion Implantation Technique . Nucl. Instru. and Meth. in Phys. Res. B , 96 : 7
  • Kishimoto , N. R. , Takeda , Y. R. and Kono , K. R. 1999 . Filmmaking Method and the Apparatus by Negative-ion Irradiation with Co-evaporation Pat. Proposed No. 11-245934, N. Kishimoto, Y. Takeda, N. Umeda, V. T. Gritsyna, C. G. Lee, and T. Saito, Metal nanocrystal formation in magnesium aluminate spinel and silicon dioxide with high-flux Cu− ions, Nucl. Instru. and Meth. in Phys. Res. B 166–167, 840 (2000)
  • Amekura , H. and Kishimoto , N. 2003 . Implantation of 60 keV copper negative ion into thin SiO2 films on Si: Thermal stability of Cu nanoparticles and recovery of radiation damage . J. Appl. Phys. , 94 : 2585 N. Kishimoto, Y. Takeda, N. Umeda, N. Okubo, and R. G. Faulkner, Ion-induced metal nanoparticles in insulators for nonlinear optical property, Nucl. Instru. and Meth. in Phys. Res. B206, 634 (2003); N. Kishimoto, N. Okubo, O. A. Plaksin, N. Umeda, J. Lu, and Y. Takeda, Stability of nanoparticles in LiNbO3 induced by negative Cu ions and ultrafast nonlinear optical property, Nucl. Instru. and Meth. in Phys. Res. B218, 416 (2004); N. Kishimoto, O. A. Plaksin, N. Umeda, and Y. Takeda, Atomic transport in insulators under high-flux heavy-ion implantation, Nucl. Instru. and Meth. in Phys. Res. B 219–220, 810 (2004)
  • Boldyryeva , H. , Kishimoto , N. , Umeda , N. , Kono , K. , Plaksin , O. A. and Takeda , Y. 2004 . Surface modification and nanoparticle formation by negative ion implantation of polymers . Nucl. Instru. and Meth. in Phys. Res. B , 219–220 : 953
  • Bandourko , V. , Umeda , N. , Suga , T. , Lee , C. G. , Kono , K. , Takeda , Y. and Kishimoto , N. 2003 . Nanoparticles formation in insulators induced by Au− and Au2 − ion implantation . Nucl. Instru. and Meth. in Phys. Res. B , 206 : 606
  • Park , C. J. , Kwon , Y. H. , Lee , Y. H. , Kang , T. W. , Cho , H. Y. , Kim , S. , Choi , S.-H. and Elliman , R. G. 2004 . Origin of luminescence from Si− implanted (1-102) Al2O3 . Appl. Phys. Lett. , 84 : 2667
  • Pavesi , L. , Dal Negro , L. , Mazzoleni , C. , Franzo , G. and Priolo , F. 2000 . Optical gain in silicon nanocrystals . Nature , 408 : 440
  • Amekura , H. , Kitazawa , H. , Umeda , N. , Takeda , Y. and Kishimoto , N. 2004 . Nickel nanoparticles in silica glass fabricated by 60 keV negative-ion implantation . Nucl. Instru. and Meth. in Phys. Res. B , 222 : 114
  • Amekura , H. , Fudamoto , Y. , Takeda , Y. and Kishimoto , N. 2005 . Curie transition of superparamagnetic nickel nanoparticles in silica glass: A phase transition in a finite size system . Phys. Rev. B , 71 : 172404
  • Amekura , H. , Takeda , Y. and Kishimoto , N. 2004 . Magneto-optical Kerr spectra of nickel nanoparticles in silica glass fabricated by negative-ion implantation . Thin Solid Films , 464–465 : 268
  • Amekura , H. , Umeda , N. , Takeda , Y. , Lu , J. , Kono , K. and Kishimoto , N. 2005 . Formation processes of nickel oxide nanoparticles in SiO2 by metal-ion implantation combined with thermal oxidation . Nucl. Instru. and Meth. in Phys. Res. B , 230 : 193 H. Amekura, N. Umeda, Y. Takeda, J. Lu, and N. Kishimoto, Fabrication of nickel oxide nanoparticles in SiO2 by metal-ion implantation combined with thermal oxidation, Appl. Phys. Lett. 85, 1015 (2004)
  • Amekura , H. , Kono , K. , Takeda , Y. and Kishimoto , N. 2005 . Cupric oxide nanoparticles in SiO2 fabricated by copper-ion implantation combined with thermal oxidation . Appl. Phys. Lett. , 87 : 153105
  • Amekura , H. , Plaksin , O. A. , Kono , K. , Takeda , Y. and Kishimoto , N. 2006 . Production of Cu2O nanoparticles in SiO2by ion implantation and two-step annealing at different oxygen pressures . J. Phys. D: Appl. Phys. , 39 : 3659
  • Boldyryeva , H. , Umeda , N. , Plaksin , O. A. , Takeda , Y. and Kishimoto , N. 2005 . High-fluence implantation of negative metal ions into polymers for surface modification and nanoparticle formation . Surf. & Coat. Technol. , 196 : 373
  • Mazzoldi , P. , Caccavale , F. , Cattaruzza , E. , Chakraborty , P. , Traomntin , L. , Boscolo-Boscoletto , A. , Bertoncello , R. , Trivillin , F. , Battaglin , G. and Arnold , G. W. 1994 . Colloid formation in copper-implanted fused silica and silicate glasses . Nucl. Instru. and Meth. in Phys. Res. B , 91 : 505 R. H. Magruder III, Haglund Jr., L. R. F. Yang, J. E. Wittig, and R. A. Zuhr, Physical and optical properties of Cu nanoclusters fabricated by ion implantation in fused silica, J. Appl. Phys. 76, 708 (1994); M. Ikeyama, S. Nakao, M. Tazawa, K. Kadono, and K. Kamada, Optical property changes of silica glass and sapphire induced by Cu and O implantation, Nucl. Instru. and Meth. in Phys. Res. B 175–177, 652 (2001); G. Battaglin, E. Cattaruzza, F. D'Acapito, F. Gonella, P. Mazzoldi, S. Mobilio, and F. Priolo, EXAFS study on metal cluster doped silica glass obtained by ion implantation procedures, Nucl. Instru. and Meth. in Phys. Res. B 141, 252 (1998); R. L. Zimmerman, D. Ila, E. K. Williams, D. B. Poker, D. K. Hensley, C. Klatt, and S. Kalbitzer, Ion beam synthesis of Au and Cu nanoclusters in MgO, Nucl. Instru. and Meth. in Phys. Res. B 148, 1064 (1999)
  • Magruder , R. H. and Zuhr , R. A. 1998 . Modification of the optical properties of Ag nanoclusters by sequential implantation of Sc(Ti) and O in silica . Nucl. Instru. and Meth. in Phys. Res. B , 141 : 256
  • Williams , E. K. , Ila , D. , Darwish , A. , Poker , D. B. , Sarkisov , S. S. , Curley , M. J. , Wang , J. C. , Svetchnikov , V. L. and Zandbergen , H. W. 1999 . Characterization of silver colloids formed in LiBbO3 by Ag and O implantation at room and elevated temperatures . Nucl. Instru. and Meth. in Phys. Res. B , 148 : 1074
  • Lerme , J. , Palpant , B. , Prevel , B. , Pellarin , M. , Treilleux , M. , Vialle , J. L. , Perez , A. and Broyer , M. 1998 . Quenching of the size effects in free and matrix-embedded silver cluster . Phys. Rev. Lett. , 80 : 5105 H.-E. Mahnke, B. Schattat, P. Schubert-Bischoff, and N. Novakovic, Ion beam induced nanosized Ag metal clusters in glass, Nucl. Instru. and Meth. in Phys. Res. B 245, 222 (2006)
  • Magruder , R. H. III , Yang , L. , Haglund , R. F. Jr. , White , C. W. , Yang , L. , Dorsinville , R. and Alfano , R. R. 1993 . Optical properties of gold nanocluster composites formed by deep ion implantation in silica . Appl. Phys. Lett. , 62 : 1730
  • White , C. W. , Zhou , D. S. , Budai , J. D. , Zuhr , R. A. , Magruder , R. H. and Osborne , D. H. 1994 . Materials synthesis and processing using ion beams , Mat. Res. Soc. Symp. Proc. Edited by: Culbertson , R. J. , Holland , O. W. , Jones , K. S. and Maex , K. Vol. 316 , 499 Pittsburgh , PA : Materials Research Society .
  • Henderson , D. O. , Mu , R. , Ueda , A. , Tung , Y. S. , White , C. W. , Zuhr , R. A. and Zhu , J. G. 1996 . Atomic force microscopy, electronic and vibrational spectroscopy of Au colloids formed by ion implantation in muscovite mica . J. Non-Cryst. Sol. , 205–207 : 788
  • Dai , Z. , Yamamoto , S. , Narumi , K. , Miyashita , A. and Naramoto , H. 1999 . Gold nanoparticle fabrication in single crystal SiO2 by MeV Au ion implantation and subsequent thermal annealing . Nucl. Instru. and Meth. in Phys. Res. B , 149 : 108 R. L. Zimmerman, D. Ila, E. K. Williams, D. B. Poker, D. K. Hensley, C. Klatt, and S. Kalbitzer, Ion beam synthesis of Au and Cu nanoclusters in MgO, Nucl. Instru. and Meth. in Phys. Res. B 148, 1064 (1999); A.V. Fedorov, M. A. van Huis, A. van Veen, and H. Schut, Formation of gold nanoclusters in MgO by ion implantation at elevated temperatures, Nucl. Instru. and Meth. in Phys. Res. B 166–167, 215 (2000); C. M. Wang, V. Shutthanandan, Y. Zhang, S. Thevuthasan, and G. Duscher, Direct observation of substitutional Au atoms in SrTiO3 Phys. Rev. B 70, 172201 (2004); P. Kluth, B. Johannessen, S. M. Kluth, G. J. Foran, D. J. Cookson, and M. C. Ridgway, Structure and morphology of ion irradiated Au nanocrystals in SiO2 Nucl. Instru. and Meth. in Phys. Res. B 250, 215 (2006)
  • Alves , E. , Silva , R. C. de , Conde , O. , de Silva , M. F. and Soares , J. C. 1999 . Formation of coherent precipitates of platinum in sapphire . Nucl. Instru. and Meth. in Phys. Res. B , 148 : 1049
  • Cintora-Gonzalez , O. , Muller , D. , Estournes , C. , Richard-Poulet , M. , Pointsot , R. , Grob , J. J. and Guille , J. 2006 . Structure and magnetic properties of Co+- implanted silica . Nucl. Instr. Meth. Phys. Res. B , 178 : 144 G. Mattei, C. Maurizio, C. de Julian Fernandez, P. Mazzoldi, G. Battaglin, P. Canton, E. Cattaruzza, and C. Scian, Size dependent hcp-to-fcc transition temperature in Co nanoclusters obtained by ion implantation in silica, Nucl. Instr. Meth. Phys. Res. B 250, 206 (2006); P. Gangopadhyay, K. G. M. Nair, T. R. Ravindran, B. K. Panigrahi, B. Sundaravel, S. Dhara, P. Magudapathy, and C. David, Raman scattering studies of cobalt nanoclusters formed during implantation of cobalt ions in a silica matrix, Proc. of D.A.E. Solid State Phys. Symp. Gwalior, India 46, 167, 2003; E. Cattaruzza, F. Gonella, G. Mattei, P. Mazzoldi, D. Gatteschi, C. Sangregorio, M. Falconieri, G. Salvetti, and G. Battaglin, Cobalt nanoclusters in silica glass: Nonlinear optical and magnetic properties, Appl. Phys. Lett. 73, 1176 (1998); D. M. Schaadt, E. T. Yu, S. Sankar, and A. E. Berkowitz, Charge storage in Co nanoclusters embedded in SiO2 by scanning force microscopy, Appl. Phys. Lett. 74, 472 (1999)
  • Talut , G. , Reuther , H. , Mücklich , A. , Eichhorn , F. and Potzger , K. 2006 . Nanocluster formation in Fe implanted GaN . Appl. Phys. Lett. , 89 : 161909
  • Honda , S. , Modine , F. A. , Meldrum , A. , Budai , J. D. , Haynes , T. E. , Boatner , L. A. and Gea , L. A. 1999 . Microstructural processes in irradiated materials , Mat. Res. Soc. Symp. Proc. Edited by: Ewing , R. C. , Lucas , G. , Williams , J. S. and Zinkle , S. J. Vol. 540 , 225 Pittsburgh , PA : Materials Research Society .
  • Johnson , E. , Johansen , A. , Sarholt , L. and Dahmen , U. 1999 . Nanosized lead inclusions in silicon produced by ion implantation . Nucl. Instru. and Meth. in Phys. Res. B , 148 : 1034
  • Henderson , D. O. , Wu , M. , Ueda , A. , Tang , Y. S. , Mu , R. , Chen , J. , Gu , Z. , Collins , W. E. , White , C. W. , Budai , J. D. , Meldrum , A. , Zuhr , R. A. and Zhu , J. G. 1998 . Selenium nanoparticles formed by ion implantation into fused silica . Nucl. Instru. and Meth. in Phys. Res. B , 141 : 284
  • Serincan , U. , Kartopu , G. , Guennes , A. , Finstad , T. G. , Turan , R. , Ekinci , Y. and Bayliss , S. C. 2004 . Characterization of Ge nanocrystals embedded in SiO2 by Raman spectroscopy . Semicond. Sci. Technol. , 19 : 247 K.-H. Heinig, B. Schmidt, A. Markwitz, R. Grötzschel, M. Strobel, and S. Oswald, Precipitation, ripening and chemical effects during annealing of Ge+ implanted SiO2 layers, Nucl. Instru. and Meth. in Phys. Res. B 148, 969 (1999)
  • Withrow , S. P. , White , C. W. , Meldrum , A. and Budai , J. D. 1999 . Effects of hydrogen in the annealing environment on photoluminescence from Si nanoparticles in SiO2 . J. Appl. Phys. , 86 : 396
  • Shimizu-Iwayama , T. , Fujita , K. , Nakao , S. , Saitoh , K. , Fujita , T. and Itoh , N. 1994 . Visible photoluminescence in Si+-implanted silica glass . J. Appl. Phys. , 75 : 7779
  • Min , K. S. , Shcheglov , K. V. , Tang , C. M. , Atwater , H. A. , Brongersma , M. L. and Polman , A. 1996 . Defect-related versus excitonic visible light emission from ion beam synthesized Si nanocrystals in SiO2 . Appl. Phys. Lett. , 69 : 2033
  • Mutti , P. , Ghislotti , G. , Bertoni , S. , Bonoldi , L. , Cerofolini , G. F. , Meda , L. , Grilli , E. and Guzzi , M. 1995 . Room-temperature visible luminescence from silicon nanocrystals in silicon implanted SiO2 layers . Appl. Phys. Lett. , 66 : 851
  • Shimizu-Iwayama , T. , Kurumado , N. , Hole , D. E. and Townsend , P. D. 1998 . Optical properties of silicon nanoclusters fabricated by ion implantation . J. Appl. Phys. , 83 : 6018
  • Kim , T. G. , Whang , C. N. , Sun , Y. , Seo , S.-Y. , Shin , J. H. and Song , J. H. 2002 . Controlling the formation of luminescent Si nanocrystals in plasma enhanced chemical vapor deposited silicon-rich silicon oxide through ion irradiation . J. Appl. Phys. , 91 : 3236 Y. Q. Wang, R. Smirani, and G. G. Ross, The effect of implantation dose on the microstructure of silicon nanocrystals in SiO2 Nanotechnology 15, 1554 (2004)
  • Dhara , S. , David , C. and Nair , K. G. M. 2005 . Photoluminescence Si nanoclusters embedded in silica matrix . Proc. of D.A.E. Solid State Phys. Symp., Mumbai, India , 50 : 259
  • Amekura , H. , Plaksin , O. A. , Umeda , N. , Takeda , Y. , Kishimoto , N. and Buchal , Ch. 2006 . A short review and present status of ZnO nanoparticle formation by ion implantation combined with thermal oxidation . Mater. Res. Soc. Symp. Proc. , 908E : 008.1.1 – 008.1.6 . H. Amekura, N. Umeda, M. Yoshitake, K. Kono, N. Kishimoto, and Ch. Buchal, Formation processes of zinc-oxide nanoparticles by ion implantation combined with thermal oxidation, J. of Cryst. Growth 287, 2 (2006); H. Amekura, N. Umeda, Y. Sakuma, O. A. Plaksin, Y. Takeda, N. Kishimoto, and Ch. Buchal, Zn and ZnO nanoparticles fabricated by ion implantation combined with thermal oxidation, and the defect-free luminescence, Appl. Phys. Lett. 88, 153119 (2006); H. Amekura, O. A. Plaksin, M. Yoshitake, Y. Takeda, N. Kishimoto, and Ch. Buchal, Atomic force microscopy and x-ray photoelectron spectroscopy studies of ZnO nanoparticles on SiO2 fabricated by ion implantation and thermal oxidation, Appl. Phys. Lett. 89, 023115 (2006); H. Amekura, N. Umeda, Y. Sakuma, N. Kishimoto, and Ch. Buchal, Fabrication of ZnO nanoparticles in SiO2 by ion implantation combined with thermal oxidation, Appl. Phys. Lett. 88, 013109 (2005); Y. X. Liu, Y. C. Liu, C. L. Shao, and R. Mu, Excitonic properties of ZnO nanocrystalline films prepared by oxidation of zinc-implanted silica, J. Phys. D: Appl. Phys. 37, 3025 (2004); Y. C. Liu, H. Y. Xu, R. Mu, D. O. Henderson, Y. M. Lu, J. Y. Zhang, D. Z. Shen, X. W. Fan, and C. W. White, Production, structure, and optical properties of ZnO nanocrystals embedded in CaF2 matrix, Appl. Phys. Lett. 83, 1210 (2003)
  • Kaiser , U. , Muller , D. A. , Grazul , J. L. , Chuvilin , A. and Kawasaki , M. 2002 . Direct observation of defect-mediated cluster nucleation . Nat. Mater. , 1 : 102
  • Oliver , A. , Cheang-Wong , J. C. , Crespo , A. , Herna'ndez , J. M. , Solis , C. , Munoz , E. , Espejel-Morales , R. and Siejka , J. 1998 . Study of the optical properties of fused quartz after a sequential implantation with Si and Au ions . Appl. Phys. Lett. , 73 : 1574
  • Mohanty , T. , Pradhan , A. , Gupta , S. and Kanjilal , D. 2004 . Nanoprecipitation in transparent matrices using an energetic ion beam . Nanotechnology , 15 : 1620
  • Pivin , J. C. , Avasthi , D. K. , Singh , F. , Kumar , A. , Pippel , E. and Sagon , G. 2005 . Precipitation of C, Si and metals nanoparticles in silicon-based gels induced by swift heavy ion irradiation . Nucl. Instru. and Meth. in Phys. Res. B , 236 : 73
  • Orwa , J. O. , Prawer , S. , Jamieson , D. N. , Peng , J. L. , McCallum , J. C. , Nugent , K. W. , Li , Y. J. , Bursill , L. A. and Withrow , S. P. 2001 . Diamond nanocrystals formed by direct implantation of fused silica with carbon . J. Appl. Phys. , 90 : 3007
  • Yao , Y. , Liao , M. Y. , Köhler , Th. , Frauenheim , Th. , Zhang , R. Q. , Wang , Z. G. , Lifshitz , Y. and Lee , S. T. 2005 . Diamond nucleation by energetic pure carbon bombardment . Phys. Rev. B. , 72 : 035402
  • Yang , J. , Su , X. , Chen , Q. and Lin , Z. 1995 . Si+ implantation: A pretreatment method for diamond nucleation on a Si wafer . Appl. Phys. Lett. , 66 : 3284
  • Amirthapandian , S. , Panigrahi , B. K. , Rajalakshmi , M. , Kalavathi , S. , Sundaravel , B. , Datta , D. and Narayanasamy , A. 2006 . Formation of Fe nanoclusters embedded in Ge and irradiation induced amorphisation and crystallisation of Fe+ ion implanted Ge, Nucl . Instru. and Meth. in Phys. Res. B , 244 : 52
  • Stepanov , A. L. and Hole , D. E. 2002 . Formation of metal nanoparticles in dielectrics by low energy ion implantation . Recent Res. Devel. Appl. Phys. , 5 : 1
  • Stelzner , Th. , Andra , G. , Wendler , E. , Weschl , W. , Scholz , R. , Gosele , U. and Christiansen , S. 2006 . Growth of silicon nanowires by chemical vapour deposition on gold implanted silicon substrates . Nanotechnology , 17 : 2895
  • Ila , D. , Zimmerman , R. L. , Muntel , C. I. , Thevenard , P. , Orucevic , F. , Santamaria , C. L. , Guichard , P. S. , Schiestel , S. , Carosella , C. A. , Hubler , G. K. , Poker , D. B. and Hensley , D. K. 2002 . Nano-cluster engineering: A combined ion implantation/co-deposition and ionizing radiation . Nucl. Instr. Meth. Phys. Res. B , 191 : 416
  • Rizza , G. C. , Strobel , M. , Heinig , K. H. and Berans , H. 2001 . Ion irradiation of gold in SiO2: Experimental evidence for inverse Ostwald ripening . Nucl. Instru. and Meth. in Phys. Res. B , 178 : 78
  • Budai , J. D. , White , C. W. , Withrow , S. P. , Chisholm , M. F. , Zhu , J. and Zuhr , R. A. 1997 . Controlling the size, structure and orientation of semiconductor nanocrystals using metastable phase recrystallization . Nature , 390 : 384
  • Abe , H. , Yamamoto , S. , Miyashita , A. and Sickafus , K. E. 2001 . Formation mechanisms for carbon onions and nanocapsules in C+-ion implanted copper . J. Appl. Phys. , 90 : 3353
  • Müller , T. , Heinig , K.-H. and Schmidt , B. 2001 . Formation of Ge nanowires in oxidized silicon V-grooves by ion beam synthesis . Nucl. Instru. and Meth. in Phys. Res. B , 175–177 : 468
  • Shechter , H. , Stern , E. A. , Yacoby , Y. , Brener , R. and Zhang , Z. 1989 . Anomalous local hopping of Sn impurities in Lead . Phys. Rev. Lett. , 63 : 1400
  • Brown , R. A. and Williams , J. S. 1997 . Homogeneous GaAs Critical temperature and ion flux dependence of amorphization in GaAs . J. Appl. Phys. , 81 : 7681
  • Takeda , S. and Yamasaki , J. 1999 . Amorphization in silicon by electron irradiation . Phys. Rev. Lett. , 83 : 320
  • Kucheyev , S. O. , Williams , J. S. , Jagadish , C. , Zou , J. , Li , G. and Titov , A. I. 2001 . Effect of ion species on the accumulation of ion-beam damage in GaN . Phys. Rev. B , 64 : 035202
  • Du , X.-W. , Takeguchi , M. , Tanaka , M. and Furuya , K. 2003 . Formation of crystalline Si nanodots in SiO2 films by electron irradiation . Appl. Phys. Lett. , 82 : 1108
  • Du , X.-W. , Wang , B. , Zhao , N. Q. and Furuya , K. 2005 . Structure evolution of silicon nanocrystals under electron irradiation . Scripta Materialia , 53 : 899
  • Klimenov , M. , Matz , W. , Nepijko , S. A. and Lehmann , M. 2001 . Crystallization of Ge nanoclusters in SiO2 caused by electron irradiation in TEM . Nucl. Insru. Meth. Phys. Res. B , 179 : 209
  • Lulli , G. , Merli , P. G. and Antisari , M. V. 1987 . Solid-phase epitaxy of amorphous silicon induced by electron irradiation at room temperature . Phys. Rev. B , 36 : 8038
  • Pan , Z. W. , Dai , Z. R. and Wang , Z. L. 2002 . Lead oxide nanobelts and phase transformation induced by electron beam irradiation . Appl. Phys. Lett. , 80 : 309
  • Pailloux , F. , Colin , J. , Barbot , J. F. and Grilhé , J. 2005 . Pinch off of nanopipes under electron irradiation in GaN . Appl. Phys. Lett. , 86 : 131908
  • Collazo-Davila , C. , Bengu , E. , Leslie , C. and Marks , L. D. 1998 . Formation of BN nanoarches: Possibly the key to cubic boron nitride film growth . Appl. Phys. Lett. , 72 : 314
  • Zaiser , M. , Lyutovich , Y. and Banhart , F. 2000 . Irradiation-induced transformation of graphite to diamond: A quantitative study . Phys. Rev. B , 62 : 3058 M. Zaiser and F. Banhart, Radiation-induced transformation of graphite to diamond, Phys. Rev. Lett. 79, 3680 (1997); F. Banhart, The transformation of graphitic onions to diamond under electron irradiation, J. Appl. Phys. 81, 3440 (1997); F. Banhart and P. M. Ajayan, Carbon onions as nanoscopic pressure cells for diamond formation, Nature, London 382, 433 (1996)
  • Hiraki , J. , Mori , H. , Taguchi , E. , Yasuda , H. , Kinoshita , H. and Ohmae , N. 2005 . Transformation of diamond nanoparticles into onion-like carbon by electron irradiation studied directly inside an ultrahigh-vacuum transmission electron microscope . Appl. Phys. Lett. , 86 : 223101
  • Banhart , F. , Herna′ndez , E. and Terrones , M. 2003 . Extreme superheating and supercooling of encapsulated metals in fullerene like shells . Phys. Rev. Lett. , 90 : 185502
  • Sun , L. , Banhart , F. , Krasheninnikov , A. V. , Rodr'guez-Manzo , J. A. , Terrones , M. and Ajayan , P. M. 2006 . Carbon nanotubes as high pressure cylinders and nanoextruders . Science , 312 : 1199
  • Huh , S. H. and Nakajima , A. 2004 . Electron-beam-induced surface quasimelting of Co granular nanowires . Appl. Phys. Lett. , 85 : 6149
  • Muto , S. and Tanabe , T. 1999 . Fragmentation of electron-irradiated graphite at elevated temperatures . J. Electr. Microsc. , 48 : 519 M. Takeuchi, S. Muto, T. Tanabe, H. Kurata, and K. Hojou, Structural change in graphite under electron irradiation at low temperatures, J. Nucl. Mater. 271–272, 280 (1998); S. Muto, and T. Tanabe, Temperature effect of electron-irradiation-induced structural modification in graphite, J. Nucl. Mater. 283–287, 917 (2000)
  • Smith , B. W. and Luzzi , D. E. 2001 . Electron irradiation effects in single wall carbon nanotubes . J. Appl. Phys. , 90 : 3509
  • Banhart , F. , Li , J. X. and Krasheninnikov , A. V. 2005 . Carbon nanotubes under electron irradiation: Stability of the tubes and their action as pipes for atom transport . Phys. Rev. B , 71 : 241408
  • Banhart , F. , Li , J. and Terrones , M. 2005 . Cutting single-walled carbon nanotubes with an electron beam: evidence for atom migration inside nanotubes . Small , 1 : 953
  • Terrones , M. , Terrones , H. , Banhart , F. , Charlier , J.-C. and Ajayan , P. M. 2000 . Coalescence of single-walled carbon nanotubes . Science , 288 : 1226
  • Terrones , M. , Banhart , F. , Grobert , N. , Charlier , J.-C. , Terrones , H. and Ajayan , P. 2002 . Molecular junctions by joining single-walled carbon nanotubes . Phys. Rev. Lett. , 89 : 075505
  • Mikó , C. , Milas , M. , Seo , J. W. , Couteau , E. , Barisic , N. , Gaál , R. and Forró , L. 2003 . Effect of electron irradiation on the electrical properties of fibers of aligned single-walled carbon nanotubes . Appl. Phys. Lett. , 83 : 4622
  • Luzzi , D. E. and Smith , B. W. 2000 . Carbon cage structures in single wall carbon nanotubes: a new class of materials . Carbons , 38 : 1751
  • Kim , Y.-H. , Lee , I.-H. , Chang , K. J. and Lee , S. 2003 . Dynamics of fullerene coalescence . Phys. Rev. Lett. , 90 : 065501
  • Birtcher , R. C. , Donnelly , S. E. , Song , M. , Furuya , K. , Mitsuishi , K. and Allen , C. W. 2003 . Behavior of crystalline Xe nanoprecipitates during coalescence . Phys. Rev. Lett. , 83 : 1617
  • Shioya , E. , Suda , T. , Watanabe , S. , Ohnuki , S. , Ishino , M. , Yoda , O. , Abe , H. and Phillip , F. 2002 . Electron-irradiation-induced amorphization in Mo/Si nano-multilayer material . Mater. Trans. , 43 : 650
  • Muto , S. and Tanabe , T. 2003 . Local structures and damage processes of electron irradiated a-SiC studied with transmission electron microscopy and electron energy-loss spectroscopy . J. Appl. Phys. , 93 : 3765
  • Nagase , T. and Umakoshi , Y. 2006 . Phase transformation in Fe81.0Zr9.0B10.0 metallic glass during thermal annealing and electron irradiation . Iron and Steel Institute of Japan International , 46 : 1371
  • Muto , S. and Tanabe , T. 1997 . Damage process of electron irradiated graphite by means of transmission electron microscopy: I. High resolution observation of highly graphitized carbon fiber . Philos. Mag. A , 76 : 679
  • Muto , S. , Takeuchi , M. , Tanabe , T. , Kurata , H. and Hojou , K. 1999 . Change in chemical bonding state in electron-irradiated graphite . Jpn. J. Appl. Phys. , 38 : 1514 Damage process of electron irradiated graphite by means of transmission electron microscopy: II. Analysis of extended energy loss fine structure of highly oriented pyrolytic graphite, Philos. Mag. A 76, 691 (1997)
  • Muto , S. , Horiuchi , S. and Tanabe , T. 1999 . Local structural order in electron-irradiated graphite studied by high-resolution high-voltage electron microscopy . J. Electr. Microsc. , 48 : 767 T. Tanabe, and S. Muto, Damage process of graphite—a new model and its impact on degradation of materials performance, Physica Scripta T81, 104 (1999); M. Takeuchi, S. Muto, T. Tanabe, S. Arai, T. Kuroyanagi, S. Muto, M. Takeuchi, and T. Tanabe, A new microscopic model of electron irradiation damage in graphite, J. Surf. Analysis 3, 420 (1997)
  • Storm , A. J. , Chen , J. H. , Ling , X. S. , Zandbergen , H. W. and Dekker , C. 2005 . Electron-beam-induced deformations of SiO2 nanostructures . J. Appl. Phys. , 98 : 014307
  • Igarashi , S. , Muto , S. , Tanabe , T. , Aihara , J. and Hojou , K. 2002 . In-situ observation of surface blistering in silicon by deuterium and helium ion irradiation . Surf. Coat. Technol. , 158–159 : 421
  • Muto , S. , Takeda , S. and Hirata , M. 1995 . Hydrogen induced platelets in silicon studied by transmission electron microscopy . Philos. Mag. A , 72 : 1057
  • Muto , S. , Dhara , S. , Datta , A. , Hsu , C.-W. , Wu , C.-T. , Shen , C.-H. , Chen , L.-C. , Chen , K.-H. , Wang , Y.-L. , Tanabe , T. , Maruyama , T. , Lin , H.-M. and Chen , C.-C. 2004 . Characterization of nanodome on GaN nanowires formed with Ga ion irradiation . Mater. Trans. , 45 : 435
  • Lee , E. H. , Maziasz , P. J. and Rowcliffe , A. F. 1981 . Phase stability during irradiation , Edited by: Holland , J. R. , Mansur , L. K. and Potter , D. I. 191 New York : TMS/AIME .
  • Vance , E. R. and Anderson , B. W. 1972 . Study of metamict Ceylon zircon . Mineral Mag. , 38 : 605 E. R. Vance, The anomalous optical absorption spectrum of low zircon, Mineral Mag. 39, 709 (1974)
  • Meldrum , A. , Zinkle , S. J. , Boatner , L. A. and Ewing , R. C. 1998 . A transient liquid-like phase in the displacement cascades of zircon, hafnon and thorite . Nature , 395 : 56
  • Valentin , E. , Bernas , H. , Ricolleau , C. and Creuzet , F. 2001 . Ion beam “photography”: decoupling nucleation and growth of metal clusters in glass . Phys. Rev. Lett. , 86 : 99
  • Jiang , W. , Weber , W. J. , Young , J. S. and Boatner , L. A. 2002 . Irradiation-induced formation of nanoparticles in cadmium niobate pyrochlore . Appl. Phys. Lett. , 80 : 670
  • Arnoldbik , W. M. , Tomozeiu , N. , van Hattum , E. D. , Lof , R. W. , Vredenberg , A. M. and Habraken , F. H. P. M. 2005 . High-energy ion-beam-induced phase separation in SiOx films . Phys. Rev. B , 71 : 125329
  • Tarumi , R. , Takashima , K. and Higo , Y. 2002 . Formation of oriented nanocrystals in an amorphous alloy by focused-ion-beam irradiation . J. Appl. Phys. , 81 : 4610
  • Murakami , Y. , Kido , H. , Kenjo , A. , Sadoh , T. , Yoshitake , T. and Miyao , M. 2003 . Ion-beam irradiation effect on solid-phase growth of β -FeSi2 . Physica E , 16 : 505
  • Utsunomiya , S. , Wang , L. M. , Yudintsev , S. and Ewing , R. C. 2002 . Ion irradiation-induced amorphization and nano-crystal formation in garnets . J. Nucl. Mater. , 303 : 177
  • Yang , G. W. , Lai , W. S. , Lin , C. and Liu , B. X. 1999 . Irradiation-induced growth of nanoquasicrystals from amorphous matrix in the equilibrium immiscible Fe–Cu system . Appl. Phys. Lett. , 74 : 3305
  • Liu , L. J. , Huang , B. X. , Tao , K. , Shang , C. H. and Li , H.-D. 1987 . Observations of fractal patterns induced in thin films by ion irradiation . Phys. Rev. Lett. , 59 : 745 L. J. Huang, K. Tao, J. R. Ding, H.-D. Li, and B. X. Liu, Ion induced phase precipitation and growth in thin films: Fractals and dendrites, Nucl. Instru. and Meth. in Phys. Res. B 39, 144 (1999)
  • Huang , L. J. , Ding , J. R. , Li , H.-D. and Liu , B. X. 1988 . Growth of the fractal patterns in Ni-Zr thin films during ion-solid interaction . J. Appl. Phys. , 63 : 2879
  • Bellon , P. and Martin , G. 1988 . Irradiation-induced formation of metastable phases: A master equation approach . Phys. Rev. B , 38 : 2570 J. B. Liu, Z. F. Li, J. X. Zhang, B. X. Liu, G. Kresse, and J. Hafner, Irradiation and interface induced formation of a nonequilibrium Ag3Co phase predicted by ab initiocalculation, Phys. Rev. B 64, 054102 (2001)
  • Yang , G. W. , Lai , W. S. and Liu , B. X. 2000 . Metastable phases induced by ion irradiation in the equilibrium immiscible Fe–Cu system . J. Appl. Phys. , 87 : 7232
  • Pacaud , J. , Jaouen , C. and Gladyszewski , G. 1999 . Irradiation effects in Cu/W multilayers: Ion beam mixing and structural evolution . J. Appl. Phys. , 86 : 4847
  • Colla , T. J. , Urbassek , H. M. , Nordlund , K. and Averback , R. S. 1996 . Ion-induced mixing and demixing in the immiscible Ni-Ag system . Phys. Rev. B , 63 : 104206
  • Amirthapandian , S. , Panigrahi , B. K. , Srivastava , A. K. , Gupta , A. , Nair , K. G. M. , Nandedkar , R. V. and Narayanasamy , A. 2003 . Irradiation-induced metastable phase formation in immiscible Co/Ag multilayer . Nucl. Instru. and Meth. in Phys. Res. B , 212 : 140
  • Amirthapandian , S. , Panigrahi , B. K. , Srivastava , A. K. , Gupta , A. , Nair , K. G. M. , Nandedkar , R. V. and Narayanasamy , A. 2002 . Irradiation-induced metastable phase formation and amorphisation in an immiscible Co/Ag multilayer . J. Phys.: Cond. Mat. , 14 : L641
  • Marton , D. , Fine , J. and Chambers , G. P. 1988 . Temperature-dependent radiation-enhanced diffusion in ion-bombarded solids . Phys. Rev. Lett. , 61 : 2697
  • Dhara , S. , Datta , A. , Hsu , C. W. , Wu , C. T. , Shen , C. H. , Lan , Z. H. , Chen , K. H. , Chen , L. C. , Wang , Y. L. and Chen , C. C. 2004 . Hexagonal-to-Cubic phase transformation in GaN nanowires by Ga+-implantation . Appl. Phys. Lett. , 84 : 5473
  • Balamurugan , B. , Mehta , B. R. , Avasthi , D. K. , Singh , F. , Arora , A. K. , Rajalakshmi , M. , Raghavan , G. , Tyagi , A. K. and Shivaprasad , S. M. 2002 . Modifying the nanocrystalline characteristics—structure, size, and surface states of copper oxide thin films by high-energy heavy-ion irradiation . J. Appl. Phys. , 92 : 3304
  • Ruault , M.-O. , Fortuna , F. , Bernas , H. , Ridgway , M. C. and Williams , J. S. 2002 . How nanocavities in amorphous Si shrink under ion beam irradiation: An in situ study . Appl. Phys. Lett. , 81 : 2617 X. F. Zhu, J. S. Williams, M. J. Conway, M. C. Ridgway, F. Fortuna, M.-O. Ruault, and H. Bernas, Direct observation of irradiation-induced nanocavity shrinkage in Si, Appl. Phys. Lett. 79, 3416 (2001)
  • Pacifici , D. , Moreira , E. C. , Franzo , G. , Martorino , V. , Priolo , F. and Iacona , F. 2002 . Defect production and annealing in ion-irradiated Si nanocrystals . Phys. Rev. B. , 65 : 144109
  • Kluth , P. , Johannessen , B. , Foran , G. J. , Cookson , D. J. , Kluth , S. M. and Ridgway , M. C. 2006 . Disorder and cluster formation during ion irradiation of Au nanoparticles in SiO2 . Phys. Rev. B , 74 : 014202 P. Kluth, B. Johannessen, S. Kluth, G. J. M. Foran, D. J. Cookson, and M. C. Ridgway, Structure and morphology of ion irradiated Au nanocrystals in SiO2 Nucl. Instru. and Meth. in Phys. Res. B 250, 215 (2006)
  • Birtcher , R. C. , Donnelly , S. E. and Schlutig , S. 2000 . Nanoparticle ejection from Au induced by single Xe ion impacts . Phys. Rev. Lett. , 85 : 4968
  • Bello , V. , De Marchi , G. , Maurizio , C. , Mattei , G. , Mazzoldi , P. , Parolin , M. and Sada , C. 2004 . Ion irradiation for controlling composition and structure of metal alloy nanoclusters in SiO2 . J. Non-Cryst. Solids , 345–346 : 685
  • Mattei , G. , De Marchi , G. , Maurizio , C. , Mazzoldi , P. , Sada , C. , Bello , V. and Battaglin , G. 2003 . Chemical- or radiation-assisted selective dealloying in bimetallic nanoclusters . Phys. Rev. Lett. , 90 : 085502
  • Dhara , S. , Datta , A. , Wu , C. T. , Lan , Z. H. , Chen , K. H. , Wang , Y. L. , Chen , L. C. , Hsu , C. W. , Lin , H. M. and Chen , C. C. 2003 . Enhanced dynamic annealing in Ga+-ion implanted GaN nanowire . Appl. Phys. Lett. , 82 : 451
  • Dhara , S. , Datta , A. , Wu , C. T. , Lan , Z. H. , Chen , K. H. , Wang , Y. L. , Chen , L. C. , Hsu , C. W. , Lin , H. M. and Chen , C. C. 2004 . Blue shift of yellow luminescence band in self-ion implanted GaN nanowire . Appl. Phys. Lett. , 84 : 3486
  • Neugebauer , J. and van de Walle , C. G. 1994 . Atomic geometry and electronic structure of native defects in GaN . Phys. Rev. B , 50 : 8067
  • Chow , K. H. , Watkins , G. D. , Usui , A. and Mizuta , M. 2000 . Detection of interstitial Ga in GaN . Phy. Rev. Lett. , 85 : 2761
  • Wei , B. Q. , D'Arcy-Gall , J. , Ajayan , P. M. and Ramanath , G. 2003 . Tailoring structure and electrical properties of carbon nanotubes using kilo-electron-volt ions . Appl. Phys. Lett. , 83 : 3581
  • Raghuveer , M. S. , Ganesan , P. G. , D'Arcy-Gall , J. , Ramanath , G. , Marshall , M. and Petrov , I. 2004 . Nanomachining carbon nanotubes with ion beams . Appl. Phys. Lett. , 84 : 4484
  • Kim , D.-H. , Jang , H.-S. , Kim , C.-D. , Cho , D.-S. , Kang , H.-D. and Lee , H.-R. 2003 . Enhancement of the field emission of carbon nanotubes straightened by application of argon ion irradiation . Chem. Phys. Lett. , 378 : 232
  • Suzuki , M. , Ishibashi , K. , Toratani , K. , Tsuya , D. and Aoyagi , Y. 2002 . Tunnel barrier formation using argon-ion irradiation and single quantum dots in multiwall carbon nanotubes . Appl. Phys. Lett. , 81 : 2273
  • Ishibashi , K. , Tsuya , D. , Suzuki , M. and Aoyagi , Y. 2003 . Fabrication of a single-electron inverter in multiwall carbon nanotubes . Appl. Phys. Lett. , 82 : 3307
  • Park , J. W. , Lee , J.-O. , Kang , K. C. , Kim , J.-J. and Yoo , K.-H. 2002 . Effects of artificial defects on the electrical transport of single-walled carbon nanotubes . Appl. Phys. Lett. , 80 : 133
  • Stahl , H. , Appenzeller , J. , Martel , R. , Avouris , P. and Lengeler , B. 2000 . Intertube coupling in ropes of single-wall carbon nanotubes . Phys. Rev. Lett. , 85 : 5186
  • Ajayan , P. M. , Ravikumar , V. and Charlier , J.-C. 1998 . Surface reconstructions and dimensional changes in single-walled carbon nanotubes . Phys. Rev. Lett. , 81 : 1437
  • Schittenhelm , H. , Geohegan , D. B. , Jellison , G. E. , Puretzky , A. A. , Lance , M. J. and Britt , P. F. 2002 . Synthesis and characterization of single-wall carbon nanotube–amorphous diamond thin-film composites . Appl. Phys. Lett. , 81 : 2097
  • Yun , W. S. , Kim , J. , Park , K.-H. , Ha , J. S. , Ko , Y.-J. , Park , K. , Kim , S. K. , Doh , Y.-J. , Lee , H.-J. , Salvetat , J.-P. and Forro , L. 2000 . Fabrication of metal nanowire using carbon nanotube as a mask . J. Vac. Sci. Technol. A , 18 : 1329
  • Krasheninnikov , A. V. , Nordlund , K. , Keinonen , J. and Banhart , F. 2002 . Ion-irradiation-induced welding of carbon nanotubes . Phys. Rev. B , 66 : 245403
  • Pomoell , J. A. V. , Krasheninnikov , A. V. , Nordlund , K. and Keinonen , J. 2004 . Ion ranges and irradiation-induced defects in multiwalled carbon nanotubes . J. Appl. Phys. , 96 : 2864
  • Kis , A. , Csainyi , G. , Salvetat , J.-P. , Lee , T.-N. , Couteau , E. , Kulik , A. J. , Benoit , W. , Brugger , J. and Forra , L. 2004 . Reinforcement of single-walled carbon nanotube bundles by intertube bridging . Nat. Mater. , 3 : 153
  • Meldrum , A. , Boatner , L. A. and Ewing , R. C. 2002 . Nanocrystalline zirconia can be amorphized by ion irradiation . Phys. Rev. Lett. , 88 : 025503
  • Weber , W. J. , Gao , R. F. , Devanathan , R. , Jiang , W. and Wang , C. M. 2004 . Ion-beam induced defects and nanoscale amorphous clusters in silicon carbide . Nucl. Instru. and Meth. in Phys. Res. B , 216 : 25
  • Dhara , S. , Datta , A. , Wu , C. T. , Chen , K. H. , Wang , Y. L. , Muto , S. , Tanabe , T. , Hsu , C. W. , Shen , C. H. , Chen , L. C. and Maruyama , T. 2005 . Mechanism of nanoblister formation in Ga+ self-ion implanted GaN nanowires . Appl. Phys. Lett. , 86 : 203119
  • Kucheyev , S. O. , Williams , J. S. , Jagadish , C. , Zou , J. , Craig , V. S. J. and Li , G. 2000 . Ion-beam-induced porosity of GaN . Appl. Phys. Lett. , 77 : 1455 J. S. Kucheyev, S. O. Williams, J. Zou, C. Jagadish, and G. Li, Ion-beam-induced dissociation and bubble formation in GaN, Appl. Phys. Lett. 77, 3577 (2000)
  • Datta , A. , Dhara , S. , Muto , S. , Hsu , C. W. , Wu , C. T. , Shen , C. H. , Tanabe , T. , Maruyama , T. , Chen , K. H. , Chen , L. C. and Wang , Y. L. 2005 . Formation and in-situ dynamics of metallic nanoblisters in Ga+implanted GaN nanowires . Nanotechnology , 16 : 2764
  • Galli , G. 2005 . Doping the undopable . Nature , 436 : 32
  • Ovchinnikov , V. , Novikov , S. , Toivola , T. and Sinkkonen , J. 2005 . Electroluminescence from B- and P-doped silicon nanoclusters . Microelectronics Jrnl. , 36 : 502
  • Kanemitsu , Y. , Matsubara , H. and White , C. W. 2002 . Optical properties of Mn-doped CdS nanocrystals fabricated by sequential ion implantation . Appl. Phys. Lett. , 81 : 535
  • Ishizumi , A. , Matsuda , K. , Saik , T. , White , C. W. and Kanemitsu , Y. 2005 . Photoluminescence properties of single Mn-doped CdS nanocrystals studied by scanning near-field optical microscopy . Appl. Phys. Lett. , 87 : 133104
  • Ishizumi , A. , White , C. W. and Kanemitsu , Y. 2004 . Space-resolved photoluminescence of ZnS:Cu, Al nanocrystals fabricated by sequential ion implantation . Appl. Phys. Lett. , 84 : 2397
  • Pacifici , D. , Lanzano , L. , Franzo , G. , Priolo , F. and Iacona , F. 2005 . Revealing the sequential nature of the Si-nanocluster–Er interaction by variable pulse duration excitation . Phys. Rev. B , 72 : 045349
  • Pellegrino , P. , Garrido , B. , Arbiol , J. , Garcia , C. , Lebour , Y. and Morante , J. R. 2006 . Site of Er ions in silica layers codoped with Si nanoclusters and Er . Appl. Phys. Lett. , 88 : 121915
  • Smirnov , V. K. , Kibalov , D. S. , Orlov , O. M. and Graboshnikov , V. V. 2003 . Technology for nanoperiodic doping of a metal–oxide–semiconductor field-effect transistor channel using a self-forming wave-ordered structure . Nanotechnology , 14 : 709
  • Ahopelto , J. , Prunnila , M. and Pursula , E. 2006 . Self-aligned doping profiles in nanoscale silicon structures . Physica E , 32 : 547
  • Zhong , J. , Muthukumar , S. , Chen , Y. , Lu , Y. , Ng , H. M. , Jiang , W. and Garfunkel , E. L. 2003 . Ga-doped ZnO single-crystal nanotips grown on fused silica by metalorganic chemical vapor deposition . Appl. Phys. Lett. , 83 : 3401
  • Kubo , K. , Yanagisawa , J. , Wakaya , F. , Yuba , Y. and Gamo , K. 2003 . Si doping in GaAs using low energy focused Si ion beam/molecular beam epitaxy combined system . AIP Conf. Proc. , 680 : 662
  • Matsukawa , T. , Fukai , T. , Suzuki , S. , Hara , K. , Koh , M. and Ohdomari , I. 1997 . Development of single-ion implantation-controllability of implanted ion number . Appl. Surf. Sci. , 117/l18 : 677 T. Matsukawa, T. Shinada, T. Fukai, and I. Ohdomari, Key technologies of a focused ion beam system for single ion implantation, J. of Vac. Sci. & Technol. B 16, 2479 (1998); T. Shinada, Y. Kumura, J. Okabe, T. Matsukawa, and I. Ohdomari, The current status of single ion implantation, J. of Vac. Sci. & Technol. B 16, 2489 (1998)
  • Pakes , C. I. , George , D. P. , Jamieson , D. N. , Yang , C. J. , Dzurak , A. S. , Gauja , E. and Clark , R. G. 2003 . Technology computer-aided design modelling of single-atom doping for fabrication of buried nanostructures . Nanotechnology , 14 : 157
  • Paulus , H. , Bolse , T. and Bolse , W. 2006 . Smoothing, compaction, mixing, sputtering and dewetting of semimetal- and halogenide-coatings by swift heavy ion irradiation . Nucl. Instru. and Meth. in Phys. Res. B , 245 : 117 T. Bolse, H. Paulus, and W. Bolse, Swift heavy ion induced dewetting of metal oxide thin films on silicon, Nucl. Instru. and Meth. in Phys. Res. B 245, 264 (2006)
  • Dick , K. A. , Deppert , K. , Larsson , M. W. , Martensson , T. , Seifert , W. , Wallenberg , L. R. and Samuelson , L. 2004 . Synthesis of branched ‘nanotrees’ by controlled seeding of multiple branching events . Nat. Mater. , 3 : 380 P. Mohan, J. Motohisa, and T. Fukui, Fabrication of InP/InAs/InP core-multishell heterostructure nanowires by selective area metalorganic vapor phase epitaxy, Appl. Phys. Lett. 88, 133105 (2006)
  • Erwin , S. C. , Zu , L. , Haftel , M. I. , Efros , A. L. , Kennedy , T. A. and Norris , D. J. 2005 . Doping semiconductor nanocrystals . Nature , 436 : 91
  • Nastasi , M. and Mayer , J. W. 1994 . Ion beam mixing in metallic and semiconductor materials . Mater. Sci. and Engg. R , 12 : 1
  • Wolf , S. A. , Awschalom , D. D. , Buhrman , R. A. , Daughton , J. M. , von Molnar , S. , Roukes , M. L. , Chtchelkanova , A. Y. and Treger , D. M. 2001 . Spintronics: A spin-based electronics vision for the future . Science , 294 : 1488
  • Kane , B. E. 1998 . A silicon-based nuclear spin quantum computer . Nature , 393 : 133
  • Jelezko , F. , Gaebel , T. , Popa , I. , Gruber , A. and Wrachtrup , J. 2004 . Observation of coherent oscillations in a single electron spin . Phys. Rev. Lett. , 92 : 076401
  • Martin , J. , Bischoff , L. and Wannemacher , R. 2001 . Microscopy of Ion-Beam Generated Fluorescent Color Center Patterns in LiF . Opt. Commun. , 188 : 119 J. Martin, R. Wannemacher, J. Teichert, L. Bischoff, and B. Kohler, Generation and detection of fluorescent color centers in diamond with submicron resolution, Appl. Phys. Lett. 75, 3096 (1999)
  • Schenkel , T. , Persaud , A. , Park , S. J. , Nilsson , J. , Bokor , J. , Liddle , J. A. , Keller , R. , Schneider , D. H. , Cheng , D. W. and Humphries , D. E. 2003 . Solid state quantum computer development in silicon with single ion implantation . J. App. Phys. , 94 : 7017

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.