VIRENDRA KUMAR SAXENA

PUBLICATIONS LIST:

  1. The effect of structural water molecules on the normal mode spectrum of dTn · dAn × dTn DNA. V. M. Dadarlat and V. K. saxena, J. Biomol. Struct. & Dynam., 17, 333 (1999)
  2. Stability of of triple helical poly(dT)-poly(dA)-poly(dT) DNA with counterions. V. M. Dadarlat and V. K. Saxena, Biophys. J., 75, 70 (1998).
  3. "Students Manual to Bueche/Jerde PRINCIPLES OF PHYSICS, Sixth Edition", V. K. Saxena, (in press) McGraw-Hill Publishing Company, New York (1995).
  4. Semiclassical IR/Raman spectroscopy of DNA polymer. J. Biomol. Struct. & Dynamics, 12, a041 (1995), V. M. Dadarlat, V. K. Saxena, and L. L. Van Zandt.
  5. "Solutions Manual to Accompany Bueche/Jerde PRINCIPLES OF PHYSICS, Sixth Edition", V. K. Saxena published by McGraw-Hill Publishing Company, New York (1995).
  6. Local modes in DNA polymer with hydrogen bond defects. Biophys. J. 67, 2448(1994), V. K. Saxena and L. L. Van Zandt.
  7. Vibrational local modes in DNA polymer. J. Biomol. Struct. & Dynam., 11, 1149(1994), L. L. Van Zandt and V. K. Saxena.
  8. Vibrational local modes at polymer chain defects in DNA. J. Biomol. Struct. & Dynamics 10, a199 (1993), L. L. Van Zandt and V. K. Saxena.
  9. Dynamics of dissolved DNA polymers with counterions. In SPIE Vol. 1890: Proc. of Biomol. Spect. III (1993) 13, B. H. Dorfman, V. K. Saxena, and L. L. Van Zandt.
  10. Identifying and interpreting spectral features of DNA. in the microwave-submillimeter range. In Structure & Functions Vol 1: Nucleic Acids, Edited by R. H. Sharma & M. H. Sharma (Adenine Press, 1992) 237, L. L. Van Zandt and V. K. Saxena.
  11. Plasmon interpretation of 25 cm-1 mode in DNA. J. Biomol. Struct. & Dynam. 10, 227(1992), V. K. Saxena and L. L. Van Zandt.
  12. Effect of counterions on the spectrum of dissolved DNA polymers. Phys. Rev. A45, 7610(1992), V. K. Saxena and L. L. Van Zandt.
  13. Low-frequency parametrization of hydrogen bonding. J. Biomol. Struct. & Dynam. 8, 1057(1991), W. K. Schroll, L. L. Van Zandt, and V. K. Saxena.
  14. Identifying and interpreting spectral features of DNA in the microwave-submillimeter range. J. Biomol. Struct. & Dynamics, 8, a239 (1991), L. L. Van Zandt and V. K. Saxena.
  15. Dynamics of dissolved DNA polymer. J. Biomol. Struct. & Dynamics, 8, a274 (1991), B. H. Dorfman, V. K. Saxena, and L. L. Van Zandt.
  16. Identifying and interpreting spectral features of dissolved poly(dA)-poly(dT) DNA polymer in the high microwave range. Phys. Rev. A43, 4510(1991), V. K. Saxena, B. H. Dorfman, and L. L. Van Zandt.
  17. Closed form solution for localized modes on a DNA polymer chain with a defect. J. Computational Phys. 93, 273(1991), V. K. Saxena, L. L. Van Zandt, and W. K. Schroll.
  18. Dynamics of dissolved DNA polymers using a frequency dependent dielectric constant. Phys. Rev. A42, 4993(1990), V. K. Saxena and L. L. Van Zandt.
  19. Determination of eigenvectors in molecular spectroscopy by isotopic substitution. Biopolymers 30, 87(1990), L. L. Van Zandt and V. K. Saxena.
  20. Atomic motions and high frequency cut-off in biological macromolecules. Chem. Phys. Letts. 164, 82(1989), V. K. Saxena, L. L. Van Zandt, and W. K. Schroll.
  21. The millimeter-microwave spectrum of DNA: six predictions for spectroscopy. Phys. Rev. A39, 2672(1989), L. L. Van Zandt and V. K. Saxena.
  22. Field distributions and tricritical points in a random field Ising model: mean-field renormalization group approach. Phys. Rev. B39, 4409(1989), A. S. de Arruda, W. Figueiredo, R. M. Sebastianes, and V. K. Saxena.
  23. Effective field approach for long range dissolved DNA polymer dynamics. Phys. Rev. A39, 1474(1989), V. K. Saxena, L. L. Van Zandt, and W. K. Schroll.
  24. DNA plasmon. Phys. Rev. Letts. 61, 1788(1988), L. L. Van Zandt and V. K. Saxena.
  25. Percolation in an edge. J. Phys. A20, 6623(1987), V. K. Saxena.
  26. Critical behavior of a semi-infinite Ising model with an edge. Phys. Rev. B35, 3612(1987), V. K. Saxena.
  27. Phase diagram of random-field Ising model with a trimodal distribution. Phys. Rev. B35, 2058(1987), R. M. Sebastianes and V. K. Saxena.
  28. Trimodal random-field Ising model on a Bethe lattice and tricritical point. Phys. Rev. B35, 2055(1987), V. K. Saxena.
  29. Geometrical phase transitions on hierarchical lattices and universality. Phys. Rev. B34, 8193(1986), P. R. Hauser and V. K. Saxena.
  30. Critical properties of bond- and site-diluted triangular lattice Ising models. Phys. Status solidi (b)137, K31(1986), L. R. Evangelista and V. K. Saxena.
  31. Two-step renormalization group approach for randomly diluted Ising models. J. Phys. A18, L389(1985), L. R. Evangelista and V. K. Saxena.
  32. Random-field Ising model with a zero-temperature multi- critical point. Phys. Stat. Sol. (b)126, K29(1984), L. R. Evangelista and V. K. Saxena.
  33. Low-temperature phase transitions in a random-field Ising model. Phys. Rev. B30, 4034(1984), V. K. Saxena.
  34. Effect of dilution on phase transitions in a transverse Ising model. Phys. Rev. B27, 6884(1983), V. K. Saxena.
  35. Phase diagram of spin-S Ising model with a random magnetic field. Sol. State Communs. 45, 93(1983), V. K. Saxena.
  36. Tricritical line in a transverse Ising model with random local fields. Phys. Letts. A90, 71(1982), V. K. Saxena.
  37. Tricritical point in systems with randomly oriented local fields. J. Phys. C14, L745(1981), V. K. Saxena.
  38. Phase transitions in a randomly diluted transverse Ising model. Ferroelectrics (abstract) 35, 1118(1981), V. K. Saxena.
  39. Transition point of random Ising models.Phys. Status Sol. (b)106, K141(1981), V. K. Saxena.
  40. Curie temperature of spin-1 ferromagnets with large uniaxial anisotropy. Phys. Status Sol. (b)105, K125(1981), V. K. Saxena.
  41. Spin-glass transitions in Heisenberg systems with competing interactions. Phys. Status Sol. (b)103, K99(1981), V. K. Saxena.
  42. Comments on Ising spin-glass with competing interactions. Phys. Letts. A79, 213(1980), V. K. saxena.
  43. A variational cluster method for amorphous ferromagnets. Phys. Status Sol. (b)96, K125(1979), V. K. Saxena.
  44. Constant coupling approximation for Curie temperature of ferro- magnets with random anisotropy. Phys. Stat. Sol.(b)88, K87(1978), V. K. Saxena.
  45. Disorder induced behavior of magnetization at low temperatures. Phys. Stat. Sol. (b)86, K163(1978), V. K. Saxena and R. Kishore.
  46. Low-temperature behavior of amorphous ferromagnets. Nucl. Phys. and Sol. State Phys. (India) C19 (1976), V. K. Saxena and S. K. Joshi.
  47. Phonon effects on quasiparticle damping in metals. Ind. J. Pure and Appld. Phys. 14, 288(1976), R. Prasad and V. K. Saxena.
  48. Influence of screening cloud on positron wave function. Nucl. Phys. and Sol. State Phys. (India) C17, 37(1974), V. K. Saxena and R. M. Singru.
  49. Dielectric function for anisotropic plasmas. Phys. Letts. A40, 122(1972), M. Imamuddin, V. K. Saxena, and R. Dekeyser.
  50. The double-time Green's function method for the study of phase transitions in an Ising model. Proc. First European Conference on the Physics of Condensed Matter (1971), V. K. Saxena and R. Dekeyser.
  51. Effect of Core electrons on the electronic density of states in normal metals. Ind. J. Pure and Appld. Phys. 9, 349(1971), V. K. Saxena, Q. S. Kapoor, and D. L. Bhattacharya.
  52. Perturbation treatment of electron-phonon-Coulomb system in normal metals in a pseudopotential model. Physica 49, 197(1970), V. K. Saxena and D. L. Bhattacharya.
  53. The double-time Green's function approach for the study of dis- ordered lattices. Annals of Phys. Res. Com. (C. S. I. R., India, 1970), V. K. Saxena, B. P. Srivastava, and D. L. Bhattacharya.
  54. Generalized Dyson equations and effective interaction for electron- phonon-Coulomb system in normal metals. Ind. J. Pure and Appld. Phys. 7, 717(1970), V. K. Saxena and D. L. Bhattacharya.
  55. Effect of phase transformations on the spin-susceptibility of sodium. Phys. Letts. A29, 426(1969), Q. S. Kapoor and V. K. Saxena.
  56. Binding energy and compressibility of BCC and HCP sodium. Phys. Stat. Sol. 34, 145(1969), V. K. Saxena and D. L. Bhattacharya.
  57. Effect of electron-lattice interactions on spin-paramagnetism in metals. Phys. Stat. Sol. 27, 427(1968), V. K. Saxena and D. L. Bhattacharya.
  58. Spin-paramagnetism of an electron gas. Nucl. Phys. and Sol. State Phys. (India) 10, 226(1967), V. K. Saxena and D. L. Bhattacharya.
  59. Elastic scattering of electrons in electron microscope. Annals of the Electron Microscope Society of India (1967), V. K. Saxena and D. L. Bhattacharya.