References
- Haase W, Wróbel S, editors. Relaxation phenomena. Berlin: Springer-Verlag; 2003.
- Böttcher CJF, Bordewijk P. Theory of dielectric polarization. Vol. 2. Amsterdam: Elsevier Science Publisher B.V.; 1979.
- Vogel H. Das temperaturabhängigkeitsgesetz der viskosität von flüssigkeiten [Law of temperature dependence of viscosity in fluids]. Phys Z. 1921;22:645–646. German.
- Fulcher GS. Analysis of recent measurements of the viscosity of glasses. J Am Ceram Soc. 1925;8:339–355.
- Tammann G, Hesse W. Die Abhängigkeit der Viscosität von der Temperatur bie unterkühlten Flüssigkeiten [Dependence of viscosity on temperature in supercooled liquids]. Z Anorg Allg Chem. 1926;156:245–257. German.
- Ryabov YE, Puzenko A, Feldman Y. Nonmonotonic relaxation kinetics of confined systems. Phys Rev B. 2004;69:014204-1–014204-10.
- Roland CM. Characteristic relaxation times and their invariance to thermodynamic conditions. Soft Matter. 2008;4:2316–2322.
- Ngai KL. Dynamic and thermodynamic properties of glass-forming substances. J Non-Cryst Solids. 2000;275:7–51.
- Holtzer AM, editor. The collected papers of Peter J. W. Debye. New York (NY): Interscience; 1954.
- Cole KS, Cole RH. Dispersion and absorption in dielectrics I. Alternating current characteristics. J Chem Phys. 1941;9:341–351.
- Davidson DW, Cole RH. Dielectric relaxation in glycerin. J Chem Phys. 1951;18:1417–1418.
- Davidson DW, Cole RH. Dielectric relaxation in glycerol, propylene glycol, and n‐propanol. J Chem Phys. 1951;19:1484–1490.
- Havriliak S, Negami C. A complex plane analysis of α-dispersions in some polymer systems. J Polym Sci Part C. 1966;14:99–117.
- Dissado LA, Hill RM. A cluster approach to the structure of imperfect materials and their relaxation spectroscopy. Proc R Soc A. 1983;390:131–180.
- Dissado LA, Hill RM. The fractal nature of the cluster model dielectric response functions. J Appl Phys. 1989;66:2511–2524.
- Kremer F, Schönhals A. Broadband dielectric spectroscopy. Berlin: Springer-Verlag; 2002.
- Kohlrausch RI. Theorie des elektrischen Rückstandes in der Leidener Flasche [Theory of electric residual charges in Leyden jar]. Ann Phys (Poggendorff). 1854;167:56–82. German.
- Kohlrausch R II. Theorie des elektrischen Rückstandes in der Leidener Flasche [Theory of electric residual charges in Leyden jar]. Ann Phys (Poggendorff). 1854;167:179–214. German.
- Williams G, Watts DC. Non-symmetrical dielectric relaxation behaviour arising from a simple empirical decay function. Trans Faraday Soc. 1970;66:80–85.
- Fröhlich H. Theory of dielectrics. Oxford: Oxford University Press; 1958.
- Onsager L. Electric moments of molecules in liquids. J Am Chem Soc. 1936;58:1486–1493.
- Kirkwood JG. The dielectric polarization of polar liquids. J Chem Phys. 1939;7:911–919.
- Jonscher AK. The ‘universal’ dielectric response. Nature. 1977;267:673–679.
- León C, Ngai KL. Rapidity of the change of the Kohlrausch exponent of the α-relaxation of glass-forming liquids at T or T and consequences. J Phys Chem B. 1999;103:4045–4051.
- Schneider U, Brand R, Lunkenheimer P, et al. Excess wing in the dielectric loss of glass formers: a Johari–Goldstein β relaxation? Phys Rev Lett. 2000;84:5560–5563.
- Adichtchev S, Blochowicz T, Gainaru C, et al. Evolution of the dynamic susceptibility of simple glass formers in the strongly supercooled regime. J Phys Condens Matter. 2003;15:S835–S847.
- Singh LP, Murthy SSN. Study of secondary relaxation in disordered plastic crystals of isocyanocyclohexane, cyanocyclohexane, and 1-cyanoadamantane. J Chem Phys. 2008;129:094501-1–094501-11.
- Dixon PK, Wu L, Nagel SR, et al. Scaling in the relaxation of supercooled liquids. Phys Rev Lett. 1990;65:1108–1111.
- Menon N, Nagel SR. Comment on “Scaling of the α-relaxation in low-molecular-weight glass-forming liquids and polymers.” Phys Rev Lett. 1993;71:4095.
- Menon N, Nagel SR. Evidence for a divergent susceptibility at the glass transition. Phys Rev Lett. 1995;74:1230–1233.
- Dixon PK. Specific-heat spectroscopy and dielectric susceptibility measurements of salol at the glass transition. Phys Rev B. 1990;42:8179–8186.
- Leheny RL, Menon N, Nagel SR. Comment on “Spectral shape of the α-process in supercooled liquids revisited.” Europhys Lett. 1996;36:473–474.
- Leheny RL, Nagel SR. High-frequency asymptotic shape of the primary relaxation in supercooled liquids. Europhys Lett. 1997;39:447–452.
- Wu L, Dixon PK, Nagel SR, et al. Relaxation spectroscopies of viscous liquids. J Non-Cryst Solids. 1991;131:32–36.
- Menon N, O'Brien KP, Dixon PK, et al. Wide-frequency dielectric susceptibility measurements in glycerol. J Non-Cryst Solids. 1992;141:61–65.
- Wu L. Relaxation mechanisms in a benzyl chloride–toluene glass. Phys Rev B. 1991;43:9906–9915.
- Leslie-Pelecky DL, Birge NO. Universal scaling of the relaxation near a model glass transition. Phys Rev Lett. 1994;72:1232–1235.
- Massalska-Arodź M, Krawczyk J. Correlations in a system with complex dynamics. Proc SPIE. 1999;4017:158–163.
- Schönhals A, Schloser E. Dielectric relaxation in polymeric solids. Part 1. A new model for the interpretation of the shape of the dielectric relaxation function. Colloid Polym Sci. 1989;267:125–132.
- Schloser E, Schönhals A. Dielectric relaxation in polymeric solids. Part 2. Application of the new model to polyurethane systems. Colloid Polym Sci. 1989;267:133–138.
- Schönhals A, Kremer F, Schloser E. Scaling of the α-relaxation in low-molecular-weight glass-forming liquids and polymers. Phys Rev Lett. 1991;67:999–1002.
- Schönhals A, Kremer F, Stickel F. Reply to comment on “Scaling of the α-relaxation in low-molecular-weight glass-forming liquids and polymers.” Phys Rev Lett. 1993;71:4096.
- Kudlik A, Benkhof S, Lenk R, et al. Spectral shape of the α-process in supercooled liquids revisited. Europhys Lett. 1995;32:511–516.
- Kudlik A, Blochowicz T, Benhof S, et al. Reply to comment on “Spectral shape of the α-process in supercooled liquids revisited.” Europhys Lett. 1995;36:475–476.
- Brand R, Lunkenheimer P, Loidl A. Is there an excess wing in the dielectric loss of plastic crystals? Phys Rev Lett. 1999;82:1951–1954.
- Brand R, Lunkenheimer P, Loidl A. Relaxation dynamics in plastic crystals. J Chem Phys. 2002;116:10386–10401.
- Schneider U, Brand R, Lunkenheimer P, et al. Scaling of broadband dielectric data of glass-forming liquids and plastic crystals. Eur Phys J E. 2000;2:67–73.
- Dendzik Z, Paluch M, Gburski Z, et al. On the universal scaling of the dielectric relaxation in dense media. J Phys Condens Matt. 1997;9:L339–L346.
- Gałązka M, Juszyńska-Gałązka E, Osiecka N, et al. On new scaling of dielectric response. J Appl Phys. 2015;118:064101-1–064101-6.
- Osiecka N, Massalska-Arodź M, Galewski Z, et al. Dynamics and phase transitions of 4-bromobenzylidene-4′-pentyloxyaniline and 4-bromobenzylidene-4′-hexyloxyaniline as studied by dielectric spectroscopy. Acta Phys Polon A. 2013;124:913–916.
- Juszyńska-Gałązka E, Gałązka M, Massalska-Arodź M, et al. Phase behavior and dynamics of the liquid crystal 4′-butyl-4-(2-methylbutoxy)azoxybenzene (4ABO5*). J Phys Chem B. 2014;118:14982–14989.
- Juszyńska-Gałązka E, Gałązka M, Massalska-Arodź M, et al. Phase behavior and dynamics of the liquid crystal 4-ethyl-4′-octylazoxybenzene (4EBO) (unpublished).
- Schneider U, Lunkenheimer P, Brand R, et al. Dielectric and far-infrared spectroscopy of glycerol. J Non-Cryst Solids. 1998;235–237:173–179.
- Schneider U, Lunkenheimer P, Brand R, et al. Broadband dielectric spectroscopy on glass-forming propylene carbonate. Phys Rev E. 1999;59:6924–6936.
- Roland CM, Casalini R, Paluch M. Isochronal temperature–pressure superpositioning of the a-relaxation in type-A glass formers. Chem Phys Lett. 2003;367:259–264.
- Paluch M, Ngai KL, Hensel-Bielowka S. Pressure and temperature dependences of the relaxation dynamics of cresolphthalein-dimethylether: evidence of contributions from thermodynamics and molecular interactions. J Chem Phys. 2001;114:10872–10883.