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Linear and Multilinear Algebra Volume 71, 2023 - Issue 16
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Research Article

A note on numerical ranges of tensors

Nirmal Chandra Routa Department of Mathematics, National Institute of Technology Raipur, Raipur, IndiaORCID Iconhttps://orcid.org/0000-0002-5172-897X
ORCID Icon,
Krushnachandra Panigrahyb Department of Engineering Mathematics, Koneru Lakshmaiah Education Foundation, Hyderabad, IndiaORCID Iconhttps://orcid.org/0000-0003-0067-9298
ORCID Icon &
Debasisha Mishraa Department of Mathematics, National Institute of Technology Raipur, Raipur, IndiaCorrespondence[email protected]
[email protected]
ORCID Iconhttps://orcid.org/0000-0001-7162-1873
ORCID Icon
Pages 2645-2669 | Received 30 Aug 2021, Accepted 21 Aug 2022, Published online: 06 Sep 2022

References

  • Bonsall FF, Duncan J. Numerical ranges I. Cambridge: Cambridge University Press; 1971.
  • Bonsall FF, Duncan J. Numerical ranges II. Cambridge: Cambridge University Press; 1973.
  • Halmos PR. A Hilbert space problem book. New York (NY): Von Nostrand; 1967.
  • Horn RA, Johnson CR. Topics in matrix analysis. Cambridge: Cambridge University Press; 1991.
  • Axelsson O, Lu H, Polman B. On the numerical radius of matrices and its application to iterative solution methods. Linear Multilinear Algebra. 1994;37(1–3): 225–238.
  • Cheng S-H, Higham NJ. The nearest definite pair for the Hermitian generalized eigenvalue problem. Linear Algebra Appl. 1999;302-303:63–76.
  • Eiermann M. Field of values and iterative methods. Linear Algebra Appl. 1993;180:167–197.
  • Fiedler M. Numerical range of matrices and Levinger's theorem. Linear Algebra Appl. 1995;220:171–180.
  • Goldberg M, Tadmor E. On the numerical radius and its applications. Linear Algebra Appl. 1982;42:263–284.
  • Kirkland S, Psarrakos P, Tsatsomeros M. On the location of the spectrum of hypertournament matrices. Linear Algebra Appl. 2001;323(1-3): 37–49.
  • Maroulas J, Psarrakos P, Tsatsomeros M. Perron-Frobenius type results on the numerical range. Linear Algebra Appl. 2002;348(1-3): 49–62.
  • Psarrakos P, Tsatsomeros M. On the stability radius of matrix polynomials. Linear Multilinear Algebra. 2002;50(2): 151–165.
  • Ke R, Li W, Ng MK. Numerical ranges of tensors. Linear Algebra Appl. 2016;508:100–132.
  • Pakmanesh M, Afshin H. Numerical ranges of even-order tensor. Banach J Math Anal. 2021;15(3): 59.
  • Einstein A. The foundation of the general theory of relativity. In: Kox AJ, Klein MJ, Schulmann R, editors. The collected papers of Albert Einstein 6. Princeton (NJ): Princeton University Press; 2007. p. 146–200.
  • Lai WM, Rubin D, Krempl E. Introduction to continuum mechanics. Oxford: Butterworth-Heinemann; 2009.
  • Brazell M, Li N, Navasca C, et al. Solving multilinear systems via tensor inversion. SIAM J Matrix Anal Appl. 2013;34(2): 542–570.
  • Huang B, Li W. Numerical subspace algorithms for solving the tensor equations involving Einstein product. Numer Linear Algebra Appl. 2021;28:e2351.
  • Liang M, Zheng B. Further results on Moore–Penrose inverses of tensors with application to tensor nearness problems. Comput Math Appl. 2019;77(5): 1282–1293.
  • Berger CA. On the numerical range of powers of an operator. Notices Amer Math Soc. 1965;12:590.
  • Pearcy C. An elementary proof of the power inequality for the numerical radius. Michigan Math J. 1960;13:289–291.
  • Sun L, Zheng B, Bu C, et al. Moore–Penrose inverse of tensors via Einstein product. Linear Multilinear Algebra. 2016;64(4): 686–698.
  • Panigrahy K, Mishra D. Extension of Moore–Penrose inverse of tensor via Einstein product. Linear Multilinear Algebra. 2022;70(4): 750–773.
  • Stanimirović PS, Ćirić M, Katsikis VN, et al. Outer and (b, c) inverses of tensors. Linear Multilinear Algebra. 2020;68(5): 940–971.
  • Liang M, Zheng B, Zhao R. Tensor inversion and its application to the tensor equations with Einstein product. Linear Multilinear Algebra. 2019;67(4): 843–870.
  • Panigrahy K, Mishra D. On reverse-order law of tensors and its application to additive results on Moore-Penrose inverse. RACSAM. 2020;114(4): 184.
  • Panigrahy K, Behera R, Mishra D. Reverse-order law for the Moore–Penrose inverses of tensors. Linear Multilinear Algebra. 2020;68(2): 246–264.
  • Behera R, Mishra D. Further results on generalized inverses of tensors via the Einstein product. Linear Multilinear Algebra. 2017;65(8): 1662–1682.
  • Ji J, Wei Y. The Drazin inverse of an even-order tensor and its application to singular tensor equations. Comput Math Appl. 2018;75(9): 3402–3413.

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