A BRIEF HISTORY OF SCIENCE - Being Completed
MODERN AND PRESOCRATIC PHYSICS: IN LIGHT OF EACH OTHER - In Preparation
D. Nicolaides, The Birth of Science; Alpha Chi Recorder, Alumni Issue, Vol. 54, No. 2, page 21, 2011.
D. Nicolaides, Uniform uniaxial anisotropic systems with coupled vector order parameters; Journal of Phase Transitions, 79 (8), 655-665, August, 2006.
D. Nicolaides, Anisotropy-induced transformation of a phase transition from first to second order, Phys. Let. A 344, (6), 463-470, 2005.
D. Nicolaides and A.A. Lisyansky, Restoration of the continuous phase transition induced by frozen disorder in systems with two interacting order parameters; Phys. Rev. B, 70 (5), 54401, August, 2004.
D. Nicolaides, Short-Range Impurities In d-dimensional Uniaxial Dipolar Magnets; J. Appl. Phys. 91 (10), 15 May, 2002.
D. Nicolaides, Critical Phase Transitions Of three-dimensional Ising-Like Dipolar Ferromagnets; J. Appl. Phys. 89 (11), 7332, 1 June, 2001.
D. Nicolaides, Uniaxial Systems With Dipole-Dipole Interactions; J. Phys. A: Math. Gen., 33, 703-708, 2000
D. Nicolaides, Magnetic Systems Containing Quenched, Long-Range, Spherically Symmetric Impurities; J. Appl. Phys. 87 (9), 5899, 1 May, 2000.
D. Nicolaides, Critical Behavior In Systems With A Long-Range Correlated Frozen-In Random Field; Phys. Rev. B, 61 (1), 246, 1 January 2000.
D. Nicolaides, Coupled m-Component Fields With Cubic Anisotropy; Phys. Let. A 260, (5), 429-435, 1999.
D. Nicolaides, Cubic Interactions In Coupled Systems; J. of Phys.; Condensed Matter, 11 (14) 2879-2886, 1999.
D. Nicolaides and A.A. Lisyansky, Phase Diagrams of Systems With Two Coupled Order Parameters; Int. J. of Mod. Phys. B 13 (1), 49-57, 1999.
D. Nicolaides and A.A. Lisyansky, Cubic Anisotropic Magnets With A Random Field; J. Appl. Phys. 85 (8), 6067, 15 April, 1999.
A.A. Lisyansky and D. Nicolaides, Exact Renormalization Group Equation For Systems Of Arbitrary Symmetry Free Of Redundant Operators; J. Appl. Phys. 83 (11), 6308, 1 June, 1998.
D. Nicolaides and A.A. Lisyansky, Phase Transitions in Disordered Systems. Exactly Solvable Model. J. Appl. Phys. 79 (8), 15 April, 5091, 1996.
D. Nicolaides and A.A. Lisyansky, Fluctuation Effects In The Ising Model With Reduced Interaction And Quenched Disorder; Phys. Rev. B, 53 (14) 1 April 1996.
D. Nicolaides and A.A. Lisyansky, Random-Field Effects In Critical Phenomena. Exactly Solvable Model; Phys. Lett. A, 201, 365, 1995.
D. Nicolaides, Rigorous Approaches To Critical Phenomena At Phase Transitions; Thesis dissertation, Library of the City University of New York, 1995.
A.A. Lisyansky and D. Nicolaides, Generalized Renormalization Group Equation For Systems Of Arbitrary Symmetry; Int. J. Theor. Phys. 33, 2399, 1994.
ΣΞ), The Scientific Research Society, 1994.
D. Nicolaides, A.A. Lisyansky, Critical Behavior Of An Exactly Solvable Model With Two Interacting Fields; Bull. Amer. Phys. Soc. 38, 711, 1993.
D. Nicolaides and A.A. Lisyansky, Critical Behavior Of An Exactly Solvable Model With Two Interacting Order Parameters; Sigma Xi (ΣΞ), The Scientific Research Society, 1993.
A.A. Lisyansky and D. Nicolaides, Phase Transitions In Systems With Coupled Order Parameters Exactly Solvable Model; 37th Annual Conference On Magnetism And Magnetic Materials, Abstract, 1992.