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Title		Authors	PubMed ID
1	Angular variation of electron paramagnetic resonance spectrum: simulation of a polycrystalline EPR spectrum.	Misra SK	10053135 PHYSICS
2	A rigorous evaluation of spin-Hamiltonian parameters and linewidth from a polycrystalline EPR spectrum.	Misra SK	10479561 PHYSICS
3	Variable-frequency EPR study of Mn(2+)-doped NH(4)Cl(0.9)I(0.1) single crystal at 9.6, 36, and 249.9 GHz: structural phase transition.	Misra SK, Andronenko SI, Rinaldi G, Chand P, Earle KA, Freed JH	12615154 PHYSICS
4	A variable temperature EPR study of Mn(2+)-doped NH(4)Cl(0.9)I(0.1) single crystal at 170 GHz: zero-field splitting parameter and its absolute sign.	Misra SK, Andronenko SI, Chand P, Earle KA, Paschenko SV, Freed JH	15862243 PHYSICS
5	Exchange-mediated spin-lattice relaxation of Fe3+ ions in borate glasses.	Misra SK, Pilbrow JR	17140823 PHYSICS
6	Simulation of slow-motion CW EPR spectrum using stochastic Liouville equation for an electron spin coupled to two nuclei with arbitrary spins: matrix elements of the Liouville superoperator.	Misra SK	17881269 PHYSICS
7	Calculation of Double-Quantum-Coherence Two-dimensional Spectra: Distance Measurements and Orientational Correlations.	Misra SK, Borbat PP, Freed JH	20161423 PHYSICS
8	A 236-GHz Fe EPR STUDY OF NANO-PARTICLES OF THE FERRO-MAGNETIC ROOM-TEMPERATURE SEMICONDUCTOR Sn(1-x)Fe(x)O(2)(x=0.005).	Misra SK, Andronenko SI, Punnoose A, Tipikin D, Freed JH	20161547 PHYSICS
9	A multifrequency EPR study of Fe2+ and Mn2+ ions in a ZnSiF(6).6H2O single crystal at liquid-helium temperatures.	Misra SK, Diehl S, Tipikin D, Freed JH	20395160 PHYSICS
10	Theory of EPR lineshape in samples concentrated in paramagnetic spins: effect of enhanced internal magnetic field on high-field high-frequency (HFHF) EPR lineshape.	Misra SK, Diehl S	22613039 PHYSICS
11	Ferromagnetism in annealed Ce0.95Co0.05O2 and Ce0.95Ni0.05O2 nanoparticles.	Misra SK, Andronenko SI, Harris JD, Thurber A, Beausoleil GL, Punnoose A	24245146 PHYSICS
12	Study of paramagnetic defect centers in as-grown and annealed TiO2 anatase and rutile nanoparticles by a variable-temperature X-band and high-frequency (236 GHz) EPR.	Misra SK, Andronenko SI, Tipikin D, Freed JH, Somani V, Prakash O	27041794 PHYSICS

Title:	Angular variation of electron paramagnetic resonance spectrum: simulation of a polycrystalline EPR spectrum.
Authors:	Misra SK
Link:	https://www.ncbi.nlm.nih.gov/pubmed/10053135?dopt=Abstract
Publication:
Keywords:
PMID:	10053135	Category:	J Magn Reson	Date Added:	2019-06-04
Dept Affiliation:	PHYSICS 1 Physics Department, Concordia University, 1455 de Maisonneuve Boulevard West, Montreal, Quebec, H3G 1M8, Canada.

Description:

Angular variation of electron paramagnetic resonance spectrum: simulation of a polycrystalline EPR spectrum.

J Magn Reson. 1999 Mar;137(1):83-92

Authors: Misra SK

Abstract

A procedure based on homotopy, involving a quick calculation of EPR line positions for various orientations of the external magnetic field by the method of least-squares fitting and Taylor-series expansion, using a known line position at an infinitesimally close orientation of the external magnetic field as the initial value, by using the eigenvectors and eigenvalues of the spin-Hamiltonian matrix in single crystals, has been exploited to simulate a polycrystalline EPR spectrum. This requires rigorous calculations of intensities of resonant lines, along with their positions. Specifically, details are given of the numerical techniques involving time-efficient matrix diagonalization to obtain the eigenvalues and eigenvectors required to calculate positions and intensities of EPR lines by the method of least-squares fitting. Finally, the procedure of how to simulate a polycrystalline EPR spectrum is outlined, the required steps are listed, and illustrative examples are given.

PMID: 10053135 [PubMed - indexed for MEDLINE]

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