Physics Department faculty conduct research which contributes to the creation of new knowledge based in the most basic laws that govern the behavior of nature. Their research programs involve undergraduate students and international opportunities for collaborations with academics, industry, and governmental organizations.
Modified from physics.calpoly.edu
Submissions from 1974
Mössbauer Properties of Synthetic Analogs of Active Sites of the Iron-Sulfur Proteins, Richard B. Frankel, B. A. Averill, and R. H. Holm
Abstract: Phase Transitions in FeCl2·2H2O in External Magnetic Fields: Mössbauer Spectroscopy, L. D. Kandel, M. A. Weber, Richard B. Frankel, et al.
Mössbauer spectroscopy of magnetic phases in FeCl2 · 2H2O, L. Kandel, M. A. Weber, Richard B. Frankel, et al.
Kinectics of the Ground State Transformation in Fe(II) (N, N -Dicyclohexylthiourea)6(CIO4)2, R. Latorre, J. A. Costamagna, E. Frank, et al.
Sign of the Electric Field Gradient Tensor and the Nature of the Low Temperature Phase Transition in Fe(Pyridine)2Cl2, W. M. Reiff, Richard B. Frankel, B. F. Little, et al.
Submissions from 1973
AntiFerromagnetic To Paramagnetic Transition in Fe2+: MnF2 in External Magnetic Fields, C. R. Abeledo, Richard B. Frankel, M. A. Weber, et al.
Far Infrared Absportion of Fe(2+) in KMgF3, R. B. Frankel, C. R. Abeledo, and A. Misetich
High Magnetic Field Behavior of Iron Impurities in Chromium, Richard B. Frankel and N. A. Blum
Orbital Ground State Reversal in the High‐spin Complex Fe(II) (N, N′‐Dicyclohexylthiourea)6(ClO4)2, R. Latorre, C. R. Abeledo, Richard B. Frankel, et al.
Hyperfine Interactions in the Intramolecular Antiferromagnet (Fe salen C1)2, R. Lechan, C. Nicolini, C. R. Abeledo, et al.
Synthetic Analogs of the Active Sites of Iron-Sulfur Proteins. Structure and Properties of Bis[o-xylyldithiolato-μ2-sulfidoferrate(III)], an Analog of the 2Fe-2S Proteins, J. J. Mayerle, Richard B. Frankel, R. H. Holm, et al.
Orbital Ground State Inversion in [Fe(H2O)6](ClO4)2, W. M. Reiff, Richard B. Frankel, and C. R. Abeledo
Submissions from 1972
Analysis of Hyperfine Interactions of Fe2+ in FeF2, MnF2 and ZnF2, C. R. Abeledo, Richard B. Frankel, and A. Misetich
Electronic Properties of Fe2+ in Cubic KMgF3 from Mössbauer Spectroscopy, Richard B. Frankel, J. Chappert, J. R. Regnard, et al.
Submissions from 1971
Mössbauer Spectroscopy Study of the Spin‐Flop Transition in Fe‐Doped MnF2, C. R. Abeledo, Richard B. Frankel, A. Misetich, et al.
Isomeric shift of the 83 keV transition in 153Eu, E. Ansaldo, L. Grodzins, and Richard B. Frankel
Mössbauer Effect in Fe-DOPED KMgF3, J. Chappert, J. R. Regnard, Richard B. Frankel, et al.
Local Magnetic Moments and the Mossbauer Effect, Richard B. Frankel and Brian B. Schwartz
Mossbauer Study of an Intramolecular Antiferromagnet, R. Lechan, C. R. Abeledo, and R. B. Frankel
Submissions from 1970
Stress-Induced Angular Momentum Quenching in MgO: Fe2+ as Observed by Mössbauer Spectroscopy, J. Chappert, A. Misetich, Richard B. Frankel, et al.
Are There Magnetic Moments at the Transition Metal Sites in FeAl, CoAl, and NiAl?, Richard B. Frankel, D. J. Sellmeyer, and N. A. Blum
Nuclear Orientation of 253Es in Neodymium Ethylsulfate, A. J. Soinski, Richard B. Frankel, Q. O. Navarro, et al.
Submissions from 1969
Multiple Charge States, Hyperfine Interactions, and Relaxation Processes of Fe in 57Co-Doped MgO, J. Chappert, Richard B. Frankel, A. Misetich, et al.
Quadrupole Moment of 57Fem, J. Chappert, Richard B. Frankel, A. Misetich, et al.
High-Field Studies of Band Ferromagnetism in Fe and Ni by Mössbauer and Magnetic Moment Measurements, S. Foner, A. J. Freeman, N. A. Blum, et al.