Published Abstracts
1. "Anomalous Pairbreaking Behavior of the Matrix-Impurity System (LaSm)Sn3", L. E. De Long, R. W. McCallum, M. B. Maple and J. G. Huber, Bull. Am. Phys. Soc. 21, 383 (1976).
2. "The Effect of Localized Impurity States on the Superconductivity of Dilute Alloys of LaSn3 Containing Light Rare Earth Impurities", L. E. De Long, R. W. McCallum, W. A. Fertig and M. B. Maple, Bull. Am. Phys. Soc. 22, 338 (1977).
3. "Superconducting and Normal State Properties of Dilute Alloys of LaSn3 Containing Nd Impurities", L. E. De Long, M. B. Maple, M. Tovar and D. C. Johnston, Bull. Am. Phys. Soc. 23, 307 (1978).
4. "Pressure Dependence of the Magnetic Ordering Temperature of PrSn3", L. E. De Long, R. P. Guertin and S. Foner, Bull. Am. Phys. Soc. 24, 238 (1979).
5. "Pressure Dependence of the Reentrant Superconducting Phase Boundaries of (LaCe)Al2 and La1-xThxCe Alloys", P. H. Ansari, J. B. Bulman, J. G. Huber, L. E. De Long and M. B. Maple, Bull. Am. Phys. Soc. 26, 344 (1981).
6. "Observation of High Field Superconductivity and Exchange-Enhanced Paramagnetism in U6Fe", L. E. De Long, J. G. Huber, K. N. Yang and M. B. Maple, Bull. Am. Phys. Soc. 27, 157 (1982).
7. "Pressure Dependence of the Superconducting Transition Temperature of Graphite Intercalation Compounds", V. Yeh, L. E. De Long and P. C. Eklund, Bull. Am. Phys. Soc. 27, 340 (1982).
8. "Temperature Dependence of the Electrical Resistivity of the Itinerant Ferromagnets RERh3B2 (RE = Ce, Eu)", J. G. Huber, L. E. De Long, M. Hakimi, S. K. Dhar and S. K. Malik, Bull. Am. Phys. Soc. 28, 249 (1983).
9. "The Superconductivity of Psuedo-Binary Compounds of Th7Fe3, Th7Co3 and Th7Ni3", M. Hakimi, J. G. Huber and L. E. De Long, Bull. Am. Phys. Soc. 28, 263 (1983).
10. "Structure and Composition Dependence of the Superconducting Transition Temperature
of RE(Rh1-xCox)4B4 Alloys (RE = Y, Lu, Er)", L. E. De Long, V. Tondiglia, P. Rogl and H. C. Ku, Bull. Am. Phys. Soc. 28, 342 (1983).
11. "Anomalous Pressure Dependences of the Superconducting Transition Temperatures of Alkali-Based Graphite Intercalation Compounds", S. E. Lambert, J. W. Chen, M. B. Maple, L. E. De Long, V. Yeh, V. Tondiglia and P. C. Eklund, Bull. Am. Phys. Soc. 28, 382 (1983).
12. "Structural Properties and the Anomalous Composition Dependences of the Superconducting Transition Temperature of RE(Rh,Co)4B4 Alloys (RE = Y, Er)", L. E. De Long and P. Rogl, J. Less-Common Metals 94, 266 (1983).
13. "Anomalous Pressure Dependences of the Superconducting Transition Temperature of Graphite Intercalation Compounds", L. E. De Long, V. Yeh, V. Tondiglia, P. C. Eklund, S. E. Lambert and M. B. Maple, Carbon 22, 215 (1984).
14. "Pressure Dependence of the Superconducting Transition Temperature of LaT4P12 (T = Ru, Fe, Os) Compounds", L. E. De Long and G. P. Meisner, Bull. Am. Phys. Soc. 29, 314 (1984).
15. "Intercalant Ordering and Lattice Vibrations in Potassium Mercurographitides", W. A. Kamitakahara, L. E. De Long and P. C. Eklund, Bull. Am. Phys. Soc. 29, 382 (1984).
16. "Pressure Dependence of the Superconducting Transition Temperature of Strongly Interacting Fermi Liquids: U6X (X = Mn, Fe, Co, Ni)", T. E. Carone and L. E. De Long, Bull. Am. Phys. Soc. 29, 404 (1984).
17. "57Fe Mossbauer Spectroscopy of U6Fe", G. Lemon, P. Boolchand, M. Stevens, M. Marcuso, L. E. De Long and J. G. Huber, Bull. Am. Phys. Soc. 29, 405 (1984).
18. "Specific Heat of U6Fe in High Magnetic Fields", L. E. De Long, S. K. Dhar, K. A. Gschneidner, Jr. and A. Junod, Bull. Am. Phys. Soc. 30, 357 (1985).
19. "Enhanced Upper Critical Field of U6Fe at Low Temperatures", L. N. Hall, G. W.
Crabtree, H. Aoki, L. E. De Long and K. A. Gschneidner, Jr., Bull. Am. Phys. Soc. 30,
358 (1985).
20. "Low Temperature Specific Heat of Superconducting U6X Compounds (X = Mn, Fe, Co, Ni)", K. N. Yang, M. B. Maple, J. G. Huber and L. E. De Long, Bull. Am. Phys. Soc. 30, 358 (1985).
21. "Core Level Absorption Measurements In U-Compounds", I. Perez, M. Croft, J. Crow and L. De Long, Bull. Am. Phys. Soc. 30, 637 (1985).
22. "Phenomenological Trends for Heavy Fermi Liquids and Narrow-Band Metals", L. E. De Long, Bull. Am. Phys. Soc. 31, 445 (1986).
23. "Optical Properties of MBe13 (M = U, Ce, Th)", P. C. Eklund, D. M. Hoffman, L. E. De Long, E. T. Arakawa, J. L. Smith and Z. Fisk, Bull. Am. Phys. Soc. 31, 447 (1986).
24. "Unusual Properties of SmSn3", L. E. De Long, et al., Bull. Am. Phys. Soc. 31, (1986).
25. "High-Field, High-Tc Superconductivity in U6X Compounds", L. N. Hall, L. E. De Long, G. W. Crabtree, S. K. Malik, W. Kwok and K. A. Gschneidner, Jr., Bull. Am. Phys. Soc. 31, 648 (1986).
26. "Magnetoresistive Effects in the Upper Critical Fields of Heavy Fermion
Superconductors", L. E. De Long, G. W. Crabtree, L. N. Hall, D. G. Hinks, W. K. Kwok, S. K. Malik and K. A. Gschneidner, Jr., Bull. Am. Phys. Soc. 32, 685 (1987).
27. "Magnetoresistive Effects in the Upper Critical Field of Single-Crystal URu2Si2", L. E. De Long, R. B. Mattingly, S. Ren, W-K. Kwok, D. G. Hinks and G. W. Crabtree, Bull. Am. Phys. Soc. 34, 850 (1989).
28. "Criteria for the Occurrence of Ferromagnetism and Weak Magnetic Order in Narrow-
Band Metals", L. E. De Long, J. G. Huber and K. S. Bedell, Bull. Am. Phys. Soc. 35, 774 (1990).
29. "Phenomenological Criteria for Ferromagnetism and Spin-Density Waves in Ce Compounds and Other Narrow-Band Metals", L. E. De Long, J. G. Huber and K. Bedell, J. Appl. Phys. 67, 5222 (1990).
30. "Universality of the Volume-Scaled Ordered Moments of Metallic Magnets", L. E. De Long, J. G. Huber and K. S. Bedell, Bull. Am. Phys. Soc. 36, 701 (1991).
31. "Magnetoelastic Response of NbSe2", L. E. De Long, H. Drulis, Z. G. Xu and J. W. Brill, Bull. Am. Phys. Soc. 36, 958 (1991).
32. "Vibrating Reed Studies of Magnetic Vortices in Superconductors", L. E. De Long, J. W. Brill, Zhigang Xu and H. Drulis, J. Acoust. Soc. Am. 92, 2383 (1992).
33. "Double-Peak in the Dissipation of NbSe2 Vibrating Reeds", Z. Xu, J. W. Brill, L. De
Long and J.-C. Hou, Bull. Am. Phys. Soc. 37, 229 (1992).
34. "Anomalous Low-Temperature Flux Line Dynamics of Single-Crystal Sm1.85Ce0.15CuO4", L. E. De Long, J.-C. Hou, Z. Xu, J. W. Brill, Y. Dalichaouch, M. C. de Andrade and M. B. Maple, Bull. Am. Phys. Soc. 37, 334 (1992).
35. "Multiple-Peaks in the Flux Line Dissipation of Ceramic and Single-Crystal (Ba,K)BiO3", J.-C. Hou, L. E. De Long, Z. Xu, J. W. Brill, M. Norton, H.-Y. Tang, Y. Zheng and D. Hinks, Bull. Am. Phys. Soc. 37, 334 (1992).
36. "Failure to Observe Kondo Systematics in the Photoelectron Spectra of Several Ce-Based Heavy Fermions", J. Lawrence, J. J. Joyce, A. J. Arko, P. C. Canfield, Z. Fisk, R. J. Bartlett, J. D. Thompson and L. De Long, Bull. Am. Phys. Soc. 37, 637 (1992).
37. "Composition Dependence of the Superconducting Transition Temperature of CeRu2", A. G. Olinger and L. E. De Long, Kentucky Association of Physics Teachers Newsletter 26, No. 1, page 3 (1992); oral presentation given by Anthony G. Olinger, Jr., at the Spring Meeting of the Kentucky Association of Physics Teachers, Franklin-Simpson High School, Franklin, KY, February 27, 1993.
38. "Surface Sensitivity of PES for Cerium Heavy Fermion Compounds", R. I. R. Blyth, A. B. Andrews, J. J. Joyce, A. J. Arko, P. C. Canfield and L. De Long, Bull. Am. Phys. Soc. 39, 131 (1994).
39. "Properties of 6R-TaS2", E. Figueroa, Y.-K. Kuo, A. Olinger, M. A. Lloyd, S. Petrosatos, L. E. De Long, C. P. Brock and J. W. Brill, Bull. Am. Phys. Soc. 39, 144 (1994).
40. "Vibrating Reed Study of Flux Line Dynamics in (Ba,K)BiO3 Thin Films", Q. Chen, U. G. L. Lahaise, L. E. De Long, R. A. Schweinfurth and D. J. Van Harlingen, Bull. Am. Phys. Soc. 39, 242 (1994).
41. "Evidence for Strong Coupling Effects in the Pressure-Dependent Phase Boundaries of Reentrant (LaCe)Al2 and (La,Th)Ce Alloys", L. E. De Long, P. H. Ansari, J. B. Bulman, J. G. Huber and M. B. Maple, Bull. Am. Phys. Soc. 39, 732 (1994).
42. "Vibrating Reed Study of the Anomalous Magnetic Properties of -(ET)2[N(CN)2]Br", U. G. L. Lahaise, Q. Chen, L. E. De Long, H. H. Wang, K. D. Carlson and J. M. Williams, Bull. Am. Phys. Soc. 39, 881 (1994).
43. "Peak Effect in NbSe2", M. Chung, Z. Xu, L. E. De Long and J. W. Brill, Bull. Am. Phys. Soc. 39, 917 (1994).
45. "Evidence for the Existence of Bulk Sm+2 in SmSn3", J. J. Joyce, A. B. Andrews, R. I. R. Blyth, A. J. Arko, U. Lehmann and L. De Long, Bull. Am. Phys. Soc. 40, 316 (1995).
46. "Effects of Microstructure on Vortex Dissipation and Peak Effect in (Ba,K)BiO3 Thin Films, Ceramics and Single Crystals", Qun Chen, U. Lahaise, J. C. Hou, L. E. De Long, R. A. Schweinfurth, D. J. Van Harlingen, D. G. Hinks and M. L. Norton, Bull. Am. Phys. Soc. 40, 385 (1995).
47. "Vortex Dynamics and Peak Effect in CeRu2", L. E. De Long, Qun Chen, J. Zhang and A. G. Olinger, Jr., Bull. Am. Phys. Soc. 40, 386 (1995).
48. "Nonlinear Vortex Dissipation and Peak Effect in NbSe2", J. Zhang, L. E. De Long and R. C. Budhani, Bull. Am. Phys. Soc. 40, 386 (1995).
49. "Nonlinear Vortex Dissipation and Peak Effect in NbSe2", J. G. Childers, W. F. Henshaw, J. Zhang, L. E. De Long and R. C. Budhani, Bull. Am. Phys. Soc. 40, 387 (1995).
50. “Superconducting Films and Multilayers with Lattices of Artificial Defects (Triangular, Square or Rectangular) as a Model System for Irradiated Hight-Tc Superconductors”, V. V. Metlushko, L. E. De Long, M. Baert, M. Van Bael, K. Temst, R. Jonckheere, V. V. Moshchalkov and Y. Bruynseraede, Bull. Am. Phys. Soc. 41, 713 (1996).
51. “Complex Structures in the Reentrant Phase Diagram of HoNi2B2C”, J. Childers, J. Zhang, A. Olinger, Jr., V. Metlushko, L. De Long and P. Canfield, Bull. Am. Phys. Soc. 41, 359 (1996).
52. “Vibrating Reed Study of CeRu2”, A. Olinger, Jr., J. G. Childers, Junqing Zhang, V. Metlushko and L. E. De Long, Bull. Am. Phys. Soc. 41, 136 (1996).
53. “New Intercalation Compounds of TaS2”, E. Figueroa, Q. Chen, L. E. De Long, J. P. Selegue and J. W. Brill, Bull. Am. Phys. Soc. 41, 197 (1996).
54. “Enhanced Vortex Pinning at Matching Fields in a Nb Thin Film with a Square Lattice of Nickel Dots”, D. J. Morgan, J. B. Ketterson, D. B. Watkins, A. Terentiev and L. E. De Long, Bull. Am. Phys. Soc. 43, 325 (1998).
55. “Vortex Dynamics in Thin Vanadium Films with Periodic Arrays of Pinning Centers”, U. Welp, V. Metlushko, G. Crabtree, Zhao Zhang, S. R. J. Brueck, B. Watkins, L. E. De Long, K. Chung, B. Ilic and P. K. Hesketh, Bull. Am. Phys. Soc. 43, 325 (1998).
56. “Extended Critical Region near the Metamagnetic Transition of Single-Crystal UCoAl”, A. V. Kolomiets, L. Havela, V. Sechovsky, L. E. De Long, D. B. Watkins and A. V. Andreev, Bull. Am. Phys. Soc. 43, 115 (1998).
57. “Vibrating Reed Measurements of the Nonlinear, Anisotropic Susceptibility of Superconducting and Magnetic Materials”, L. E. De Long, Bull. Am. Phys. Soc. 43, 512 (1998).
58. “Large Area Nanostructured Superconducting and Magnetic Materials”, V. V. Metlushko, U. Welp, G. Crabrree, R. M. Osgood III, D. Hinks, S. D. Bader, B. Ilic, K. Chung, P. J. Hesketh, P. Neuzil, R. Kumar, L. E. De Long, Wenjun Fan, S. R. J. Brueck, Bull. Am. Phys. Soc. 44, 188 (1999).
59. “Non-Fermi Liquid Behavior in U3-xNi3Sn4-y Single Crystals”, L. Shlyk, L. E. De Long, J. C. Waerenborgh, M. Almeida, P. Estrela, and A. De Visser, Bull. Am. Phys. Soc. 44, 237 (1999).
60. “Observation of Periodic Magnetization Instabilities in a Superconducting Nb Film with a Square Lattice of Ni Dots”, L. E. De Long, A. Terentiev, D. Morgan and J. Ketterson, Bull. Am. Phys. Soc. 44, 1786 (1999).
61. “Flux Phases in Superconducting Niobium Films with Square Lattices of Artificial Pinning Centers”, U. Welp, V. V. Metlushko, G. Crabtree, R. M. Osgood III, S. D. Bader, B. Ilic, K. Chung, P. J. Hesketh, L. E. De Long, Wenjun Fan and S. R. J. Brueck, Bull. Am. Phys. Soc. 44, 1787 (1999).
62. “Paramagnetic Relaxation and Wohlleben Effect in Field-Cooled Nb Films”, A. Terentiev, B. Watkins, L. E. De Long, D. Morgan and J. Ketterson, Bull. Am. Phys. Soc. 44, 1868 (1999).
63. “Evidence for a Bose Glass Melting Line in a WGe Thin Film with a Square Antidot Lattice”, L. E. De Long, S. Lokhre, T. Ye, V. V. Metlushko, M. Baert, E. Rosseel, M. J. Van Bael, K. Temst, V. V. Moshchalkov and Y. Bruynseraede, Bull. Am. Phys. Soc. 46, 731 (2001).
64. “Field Matching and Proximity Effect in a Superconducting Pb/Cu Bilayer Film with a Triangular Antidot Lattice”, V. V. Metlushko, L. E. De Long, M. Baert, E. Rosseel, M. J. Van Bael, K. Temst, V. V. Moshchalkov and Y. Bruynseraede, Bull. Am. Phys. Soc. 46, 1007 (2001).
65. “Ferromagnetic Resonance of Permalloy Films with Patterned Array of Holes”, B.
Watkins, J. Feller, J. B. Ketterson, L. De Long, V. Metlushko, J. Sukkoo and V. Chandrasekhar, Bull. Am. Phys. Soc. 46, 182 (2001).
66. “Ferromagnetic Resonance in Periodic Particle Arrays”, S. Jung, B. Watkins, J. B. Ketterson, V. Chandrasekhar and L. De Long, Bull. Am Phys. Soc. 47, 260 (2002).
67. “Searching for Lattice Disorder in Non-Fermi Liquid U3Ni3Sn4”, L. E. De Long, C. H. Booth and L. Shlyk, Bull. Am. Phys. Soc. 47, 423 (2002).
68. “Proximity-Induced Josephson Network Behavior of a Pb/Cu Bilayer Film with Antidot Lattice”, S. Kryukov, L. De Long, V. Metlushko, V. Moshchalkov and Y. Bryunseraede, Bull. Am. Phys. Soc. 48, 454 (2003).
69. “Magnetic Switching of Nb/Ni Multilayers near the Superconducting Critical Temperature”, L. De Long, S. Kryukov, E. Navarro, J. E. Villegas, E. M. Gonzalex and J. L. Vicent, Bull. Am. Phys. Soc. 48, 596 (2003).
70. “Ferromagnetic Resonance in Periodic Particle Arrays”, V. Chandrasekhar, Sukkoo Jung, B. Watkins, J. Ketterson and L. De Long, Bull. Am. Phys. Soc. 48, 1104 (2003).
71. “Patterned Bilayer Films as a New Class of Superconducting Wire Network for Quantum Logic Applications”, L. De Long, Sergiy Kryukov, Wentao Xu, V. Metlushko, V. Moshchalkov and Y. Bruynseraede, Bull. Am. Phys. Soc. 49, 341 (2004).
72. “Magnetic Switching and Ferromagnetic Resonance of Nanoscale Permalloy Ring Arrays”, Wentao Xu, D. Watkins, L. De Long, K. Rivkin, J. Ketterson and V. Metlushko, Bull. Am. Phys. Soc. 49, 847 (2004).
73. “Anomalous Switching of Nb/Ni Ferromagnetic/Superconducting Multilayers”, S. Kryukov, Wentao Xu, L. De Long, E. Navarro, J. Villegas, E. Gonzalez and J. Vicent,
Bull. Am. Phys. Soc. 49, 848 (2004).
74. “Ferromagnetic Switching of Nb/Ni Multilayers and Trilayers in the Superconducting and Normal States”, Lance De Long, Wentao Xu, S. Kryukov, E. Navarro, J. Villegas, E. Gonzalez and J. Vicent, Bull. Am. Phys. Soc. 50, 545 (2005).
75. “FMR Study of Ferromagnetic Stability of Nb/Ni Multilayers and Trilayers”, Wentao Xu, S. Kryukov, Lance De Long, Chengtao Yu, Michael Pechan, E. Navarro, J. Villegas, E. Gonzalez and J. Vicent, Bull. Am. Phys. Soc. 50, 1302 (2005).
Courses Taught at the University of Virginia
"General Physics III", Physics 206E, Spring, 1978
Text: K. W. Ford, "Classical and Modern Physics", Vol. 3 (J. Wiley, New York, 1974)
Content: Introductory modern physics for engineers
"Classical and Modern Physics", Physics 211, Fall, 1978
Text: D. Halliday and R. Resnick, "Physics" (J. Wiley, New York, 1978)
Content: First semester of a one-year course in calculus-based general physics for science and pre-med majors
"Classical and Modern Physics", Physics 212, Spring, 1979
Texts: D. Halliday and R. Resnick, "Physics" (J. Wiley, New York, 1978); R. T. Weidner and R. L. Sells, "Elementary Modern Physics" (Allyn and Bacon, Boston, 1973)
Content: First semester of a one-year course in calculus-based general physics for science and pre-med majors
"Independent Study", Physics 393
Summer, 1978: Mr. John W. Mc Claulin (3 hrs.)
Content: Construction of an arc furnace and x-ray characterization of rare earth tungsten bronzes
Spring, 1979: Mr. William G. Dillon (4 hrs.)
Content: Development of computer fitting routines for germanium resistance thermometry and the generalized pairbreaking function of Abrikosov and Gor'kov
Spring, 1979: Mr. Daniel E. Johnson (4 hrs.)
Construction of an 8 T magnetic field facility for high pressure/low temperature measurements of transport properties of solids
Courses Taught at the University of California, San Diego
(Sabbatical Leave, 2002)
“Physics 2C”, Winter, 2002 (Lecturer)
Text: D. Halliday, R. Resnick and J. Walker, “Fundamentals of Physics”, 6th Edition (John Wiley and Sons, New York, 2002)
Content: Third quarter of a general physics survey for students of science and engineering, covering fluids, thermophysics, waves and optics
“Physics 2C”, Spring, 2002 (Lecturer)
Text: D. Halliday, R. Resnick and J. Walker, “Fundamentals of Physics”, 6th Edition (John Wiley and Sons, New York, 2002)
Content: Third quarter of a general physics survey for students of science and engineering, covering fluids, thermophysics, waves and optics
Courses Taught at the University of Kentucky
"Physics for Life Sciences I", PHY 205/215, Fall, 1979 (Recitation Instructor)
Text: J. W. Kane and M. M. Sternheim, "Life Science Physics" (Wiley, New York, 1978)
Content: First semester of a one-year, noncalculus general physics course for pre-medical and bioscience majors
"Physics for Life Sciences II", PHY 207/217, Spring, 1980 (Recitation Instructor)
Text: J. W. Kane and M. M. Sternheim, "Life Science Physics" (Wiley, New York, 1978)
Content: Second semester of a one-year, noncalculus general physics course for pre- medical and bioscience majors
"General Elementary Physics", PHY 201/211, Fall, 1980 (Recitation Instructor)
Text: F. Bueche, "Principles of Physics", 3rd Ed. (McGraw-Hill, New York, 1977)
Content: First semester of a one-year noncalculus general physics course
"Solid State Physics", PHY 524, Spring, 1981
Text: C. Kittel, "Introduction to Solid State Physics", 5th Ed. (Wiley, New York, 1976)
Content: First semester of a one-year introductory solid state course for advanced undergraduates and graduate students
"General Elementary Physics", PHY 201/211, Fall, 1981 (Recitation Instructor)
Text: F. Bueche, "Principles of Physics", 3rd Ed. (McGraw-Hill, New York, 1977)
Content: First semester of a one-year noncalculus general physics course
"Solid State Physics", PHY 524, Spring, 1982
Text: C. Kittel, "Introduction to Solid State Physics", 5th Ed. (Wiley, New York, 1976)
Content: First semester of a one-year introductory solid state course for advanced undergraduates and graduate students
"General Elementary Physics", PHY 201/211, Spring, 1982 (Recitation Instructor)
Text: J. D. Wilson, "Physics" (D. C. Heath, Lexington, MA, 1981)
Content: First semester of a one-year noncalculus general physics course
"General University Physics Laboratory", PHY 241, Fall, 1982 (Revision of Course)
Content: First semester of a one-year laboratory course that is companion to PHY 231, a one-year, calculus-based, general physics course for scientists and engineers
"General University Physics", PHY 232, Fall, 1982 (Recitation Instructor)
Text: F. W. Sears, M. W. Zemansky and H. D. Young, "University Physics", 5th Ed., (Addison-Wesley, Reading, MA, 1979)
Content: Second semester of a one-year, calculus-based, general physics course for
science and engineering majors
"Research in Physics", PHY 790, Fall, 1982
Mr. Vincent Tondiglia: "Topics in Low Temperature Solid State Physics Experiment"
Content: Graduate research on the synthesis and superconducting properties of graphite intercalation compounds (co-authored two publications as a result of this work)
"General University Physics", PHY 231, Spring, 1983 (Recitation Instructor)
Text: R. Serway, "PHYSICS: For Students of Science and Engineering" (Saunders College, New York, 1982)
Content: First semester of a one-year, calculus-based, general physics course for science and engineering majors
"General University Physics Laboratory", PHY 241, Spring, 1983 (Supervisor)
Texts: C. N. Wall, R. B. Levine and F. E. Christensen, "Physics Laboratory Manual", 3rd Ed. (Prentice-Hall, Englewood Cliffs, NJ, 1972); R. Hanau, "Physics Laboratory Manual", 2nd Ed. (LMR Books, Lexington, KY, 1980)
Content: First semester of a one-year laboratory course that is companion to PHY 231, the first semester of a one-year, calculus-based, general physics course for scientists and engineers
"General University Physics", PHY 232, Fall, 1983 (Lecture Instructor)
Text: R. Serway, "PHYSICS: For Students of Science and Engineering" (Saunders College, New York, 1982)
Content: Second semester of a one-year, calculus-based, general physics course for
science and engineering majors
"General University Physics Laboratory", PHY 241, Fall, 1983 (Supervisor)
Texts: C. N. Wall, R. B. Levine and F. E. Christensen, "Physics Laboratory Manual", 3rd Ed. (Prentice-Hall, Englewood Cliffs, NJ, 1972); R. Hanau, "Physics Laboratory Manual", 2nd Ed. (LMR Books, Lexington, KY, 1980)
Content: First semester of a one-year laboratory course that is companion to PHY 231, the first semester of a one-year, calculus-based, general physics course for scientists and engineers
"Selected Topics in Advanced Physics", PHY 600, Fall, 1983
Mr. Vincent Tondiglia: "Topics in Low Temperature Solid State Physics Experiment"
Content: Independent study of the synthesis and superconducting properties of graphite intercalation compounds (co-authored one publication as a result of this work)
"General University Physics", PHY 231, Spring, 1984 (Lecture Instructor-two sections)
Text: R. Serway, "PHYSICS: For Students of Science and Engineering" (Saunders College, New York, 1982)
Content: First semester of a one-year, calculus-based, general physics course for science and engineering majors
"General University Physics", PHY 232, Fall, 1984 (Lecture and Recitation Instructor)
Text: R. Serway, "PHYSICS: For Students of Science and Engineering" (Saunders College, New York, 1982)
Content: Second semester of a one-year, calculus-based, general physics course for
science and engineering majors
"General University Physics", PHY 232, Spring, 1985 (Lecture and Recitation Instructor)
Text: R. Serway, "PHYSICS: For Students of Science and Engineering" (Saunders College, New York, 1982)
Content: Second semester of a one-year, calculus-based, general physics course for
science and engineering majors
"Colloquium" (Solid State Physics Seminar), PHY 770, Spring, 1985
Organizer of one seminar per week for faculty and graduate students, including outside speakers
"Independent Work in Physics", PHY 781, Summer, 1985
Mr. A. W. Waheed (3 hrs.)
Mr. P. Charron (3 hrs.)
Content: Graduate research in solid state physics experiment; construction of laboratory facilities for the measurement of transport properties of solids in high magnetic fields
Sabbatical Leave at Argonne National Laboratory, 1985-86 academic year
"General Elementary Physics", PHY 201/211, Fall, 1986 (Lecture Instructor, two sections)
Texts: F. W. Sears, M. W. Zemansky and H. D. Young, "College Physics", 6th Ed. (Addison-Wesley, Reading, MA, 1985); R. H. March, "Physics for Poets", 2nd Ed. (Contemporary Books, Chicago, 1983)
Content: First semester of a one-year, noncalculus-based course in general physics with or without laboratory
"General Elementary Physics Laboratory", PHY 211, Fall, 1986 (Laboratory Supervisor)
Text: B. D. Kern, "Laboratory Manual for General Physics" (Kendall/Hunt, 1971)
Content: First semester of a companion laboratory for a one-year, noncalculus-based course in general physics
"Independent Work in Physics", PHY 395, Fall, 1986
Mr. William J. Brown, Junior (1 hr.)
Mr. Larry G. Smith, Junior (3 hrs.)
Content: Undergraduate research in synthesis of superconducting materials; built a glass bench and modified furnaces and vacuum pumps
Mr. Robert B. Mattingly, Senior (0 hrs.)
Content: Worked (without enrolling) around 10 hours per week writing software for the analysis of magnetoresistance and upper critical magnetic field data for actinide compounds
"General Elementary Physics Laboratory", PHY 211, Spring, 1987 (Laboratory Supervisor)
Text: B. D. Kern, "Laboratory Manual for General Physics" (Kendall/Hunt, 1971)
Content: First semester of a companion laboratory for a one-year, noncalculus-based course in general physics
"General University Physics", PHY 232, Spring, 1987 (Recitation Instructor)
Text: D. Halliday and R. Resnick, "Fundamentals of Physics", 2nd Ed. (Wiley, New York)
Content: Second semester of a one-year, calculus-based, general physics course for
science and engineering majors
"Independent Work in Physics", PHY 395, Spring, 1987
Mr. Larry G. Smith, Junior (3 hrs.)
Content: Undergraduate research in synthesis of superconducting materials; built a glass bench and modified furnaces and vacuum pumps
Mr. Robert B. Mattingly, Senior (0 hrs.)
Content: Worked (without enrolling) around 10 hours per week writing software for the analysis of magnetoresistance and upper critical magnetic field data for actinide compounds. He continued this work into the summer of 1987 with salary support from a DOE grant. This work resulted in co-authorship on one publication, and he was accepted as a graduate student in physics at Brandeis University in the fall of 1987.
"General Elementary Physics Laboratory", PHY 211, Fall, 1987 (Laboratory Supervisor)
Text: B. D. Kern, "Laboratory Manual for General Physics" (Kendall/Hunt, 1971)
Content: First semester of a companion laboratory for a one-year, noncalculus-based course in general physics
"General University Physics Laboratory", PHY 241, Fall, 1987 (Laboratory Supervisor)
Text: J. S. Miller and F. O. Clark, "Laboratory Manual for PHY 241", 4th Ed.
Content: First semester of a one-year laboratory course that is companion to PHY 231, the first semester of a one-year, calculus-based, general physics course for scientists and engineers
"Independent Work in Physics", PHY 395, Fall, 1987
Mr. William J. Brown, Junior (3 hrs.)
Mr. Larry G. Smith, Junior (3 hrs.)
Content: Undergraduate research in synthesis of superconducting materials; built a glass bench and modified furnaces and vacuum pumps
"Solid State Physics", PHY 524, Spring, 1988
Texts: C. Kittel, "Introduction to Solid State Physics", 6th Ed. (Wiley, New York, 1986); J. R. Christman, "Fundamentals of Solid State Physics" (Wiley, New York, 1988)
Content: First semester of a one-year introductory solid state course for advanced undergraduates and graduate students
"General Elementary Physics Laboratory", PHY 211, Spring, 1988 (Laboratory Supervisor)
Text: B. D. Kern, "Laboratory Manual for General Physics" (Kendall/Hunt, 1971)
Content: First semester of a companion laboratory for a one-year, noncalculus-based course in general physics
"Independent Work in Physics", PHY 395, Spring, 1988
Mr. William J. Brown, Senior (3 hrs.)
Content: Undergraduate research in synthesis of superconducting materials; modified furnaces and vacuum pumps
"Independent Work in Physics", PHY 781, Spring, 1988
Mr. Song-Lin Ren (3 hrs.)
Content: Graduate research in solid state physics experiment; construction of laboratory facilities for the measurement of transport properties of solids in high magnetic fields, and development of computer software for data analysis (one abstract published as co-author, other publications in preparation)
"General Elementary Physics Laboratory", PHY 211, Fall, 1988 (Laboratory Supervisor)
Text: B. D. Kern, "Laboratory Manual for General Physics" (Kendall/Hunt, 1971)
Content: First semester of a companion laboratory for a one-year, noncalculus-based course in general physics
Revision: Apparatus selected for refurbishing the laboratory and curriculum
"General University Physics Laboratory", PHY 241, Fall, 1988 (Laboratory Supervisor)
Text: J. S. Miller and F. O. Clark, "Laboratory Manual for PHY 241", 4th Ed.
Content: First semester of a one-year laboratory course that is companion to PHY 231, the first semester of a one-year, calculus-based, general physics course for scientists and engineers
Revision: Apparatus selected for refurbishing the laboratory and curriculum
"Residence Credit for Doctor's Degree", PHY 769, Fall, 1988
Mr. Song-Lin Ren (9 hrs., until 10/27/88 when transferred to P. Eklund)
Content: Graduate Ph.D. research in solid state experimental physics. Constructed laboratory facilities for the measurement of transport properties of solids in high magnetic fields, and developed computer software for data analysis
On leave from the University of Kentucky as Program Director for Low Temperature Physics in the Division of Materials Research at the National Science Foundation, Washington, DC, Spring, Summer and Fall, 1989.
"General Elementary Physics", PHY 203/213, Spring, 1990 (Recitation Instructor)
Text: D. C. Giancoli, "Physics" (Prentice-Hall, Englewood Cliffs, New Jersey, 2nd. Ed.)
Content: Second semester of a one-year, noncalculus-based course in general physics with or without laboratory
"Introductory Physics", PHY 152, Spring, 1990 (Lecture Instructor)
Texts: D. D. Long, "The Physics Around You" (Wadsworth, Belmont, California, 1988)
R. H. March, "Physics for Poets" (Contemporary Books, Chicago, 1978)
Content: Second semester of a lecture demonstration course in elementary physics for nonscience majors with little math background
"Advanced Mechanics", PHY 504, Fall, 1990
Text: H. Goldstein, "Classical Mechanics" (Addison-Wesley, Reading, Massachusetts, Second Ed., 1980)
Content: Classical mechanics, including Lagrangian and Hamiltonian methods, variational principles, canonical transformation theory, rigid body rotations, and oscillations, as appropriate for first-year graduate students of physics
"General University Physics Laboratory", PHY 241, Fall, 1990 (Laboratory Supervisor)
Text: J. S. Miller and F. O. Clark, "Laboratory Manual for PHY 241", 4th Ed.
Content: First semester of a one-year laboratory course that is companion to PHY 231, the first semester of a one-year, calculus-based, general physics course for scientists and engineers
"Statistical Mechanics", PHY 632, Spring, 1991
Text: R. K. Pathria, "Statistical Mechanics" (Pergamon Press, Oxford, 1st Ed., 1991)
Content: A graduate lecture and problem course dealing with the thermal properties of matter from the standpoint statistical mechnaices. Topics include thermodynamic properties, perfect gases and Fermi-Dirac and Bose-Einstein statistics.
"General University Physics Laboratory", PHY 242, Spring, 1991 (Laboratory Supervisor)
Text: J. S. Miller and F. O. Clark, "Laboratory Manual for PHY 242", 4th Ed.
Content: Second semester of a one-year laboratory course that is companion to PHY 232, the second semester of a one-year, calculus-based, general physics course for scientists and engineers
"Advanced Mechanics", PHY 504, Fall, 1991
Text: H. Goldstein, "Classical Mechanics" (Addison-Wesley, Reading, Massachusetts, Second Ed., 1980)
Content: Classical mechanics, including Lagrangian and Hamiltonian methods, variational principles, canonical transformation theory, rigid body rotations, and oscillations, as appropriate for first-year graduate students of physics
"General University Physics Laboratory", PHY 242, Fall, 1991 (Laboratory Supervisor)
Text: J. S. Miller and F. O. Clark, "Laboratory Manual for PHY 242", 4th Ed.
Content: Second semester of a one-year laboratory course that is companion to PHY 232, the second semester of a one-year, calculus-based, general physics course for scientists and engineers
"Faculty Mentor for Fayette County Magnet School Mathematics, Science and Technology Program", Spring, 1992
Student: Mr. Anthony Olinger, Junior, Dunbar High School, Lexington, Kentucky
Title: "Superconductivity of CeRu2"
Content: Experimental research into the superconducting properties of CeRu2, including approximately 8 hours per week of laboratory research and independent study.
"Statistical Mechanics", PHY 632, Spring, 1992
Text: R. K. Pathria, "Statistical Mechanics" (Pergamon Press, Oxford, 1st Ed., 1991)
Content: A graduate lecture and problem course dealing with the thermal properties of matter from the standpoint statistical mechnaices. Topics include thermodynamic properties, perfect gases and Fermi-Dirac and Bose-Einstein statistics.
"General University Physics Laboratory", PHY 242, Spring, 1992 (Laboratory Supervisor)
Text: J. S. Miller and F. O. Clark, "Laboratory Manual for PHY 242", 4th Ed.
Content: Second semester of a one-year laboratory course that is companion to PHY 232, the second semester of a one-year, calculus-based, general physics course for scientists and engineers
"Research in Physics", PHY790, Summer, 1992
Students: Gregory Hisel and M. Eric Christy
Content: Experimental research in low temperature solid state physics
"Advanced Mechanics", PHY 504, Fall, 1992
Text: H. Goldstein, "Classical Mechanics" (Addison-Wesley, Reading, Massachusetts, Second Ed., 1980)
Content: Classical mechanics, including Lagrangian and Hamiltonian methods, variational principles, canonical transformation theory, rigid body rotations, and oscillations, as appropriate for first-year graduate students of physics
"General University Physics Laboratory", PHY 242, Fall, 1992 (Laboratory Supervisor)
Text: J. S. Miller and F. O. Clark, "Laboratory Manual for PHY 242", 4th Ed.
Content: Second semester of a one-year laboratory course that is companion to PHY 232, the second semester of a one-year, calculus-based, general physics course for scientists and engineers
"Faculty Mentor for Fayette County Magnet School Mathematics, Science and Technology Program", Fall, 1992, Spring, 1993
Student: Mr. Anthony Olinger, Junior, Dunbar High School, Lexington, Kentucky
Title: "Superconductivity of CeRu2"
Content: Experimental research into the superconducting properties of CeRu2, including approximately 8 hours per week of laboratory research and independent study.
"Statistical Mechanics", PHY 632, Spring, 1993
Text: R. K. Pathria, "Statistical Mechanics" (Pergamon Press, Oxford, 1st Ed., 1991)
Content: A graduate lecture and problem course dealing with the thermal properties of matter from the standpoint statistical mechnaices. Topics include thermodynamic properties, perfect gases and Fermi-Dirac and Bose-Einstein statistics.
"General University Physics Laboratory", PHY 242, Spring, 1993 (Laboratory Supervisor)
Text: J. S. Miller and F. O. Clark, "Laboratory Manual for PHY 242", 4th Ed.
Content: Second semester of a one-year laboratory course that is companion to PHY 232, the second semester of a one-year, calculus-based, general physics course for scientists and engineers
"Introduction to Physics", PHY 151, Spring, 1990 (Lecture Instructor)
Texts: P. G. Hewitt, "Conceptual Physics", 7th Ed. (Harper Collins, New York, 1993)
R. H. March, "Physics for Poets", 3rd Ed. (Mc Graw-Hill, New York, 1992)
Content: A lecture demonstration course in elementary physics covering mechanics and heat for nonscience majors with little math background
"Electronic Instrumentation and Measurements", PHY 402G, Fall, 1993 (Lecture and Laboratory, with one TA)
Text: R. E. Simpson, "Introductory Electronics for Scientists and Engineers" (Allyn and Bacon, Boston, 2nd Ed., 1987)
Content: Elementary laboratory treatment of electronic circuits, including ac circuit theory, filters, simple transistor and diode circuits, operational amplifier circuits, feedback, and noise. Students attend two hours of lecture and three hours of lab per week.
"General University Physics Laboratory", PHY 242, Fall, 1993 (Laboratory Supervisor)
Text: J. S. Miller and F. O. Clark, "Laboratory Manual for PHY 242", 4th Ed.
Content: Second semester of a one-year laboratory course that is companion to PHY 232, the second semester of a one-year, calculus-based, general physics course for scientists and engineers
"Special Topical Graduate Course: Seminar in Teaching Physics", GS 600, Fall, 1993 (Instructor)
Content: A graded seminar for graduate teaching assistants in PHY 242 (General Physics Laboratory), with one two-hour meeting each week. TA's discuss the problems encountered in teaching PHY 242 sections, and how better experiments and methodologies may be developed. Each TA prepares a "Thought Problem", which is an extension of one of the regular experimental procedures in the PHY 242 lab manual. The Thought Problems are designed to stimulate creative thinking and problem solving logic by posing an experimental task for which no complete write-up exists, and asking the student to design and use a procedure to complete the task, and to prepare a meaningful lab report on his/her findings.
"Research in Physics", PHY 790, Fall, 1993
Student: Billy Wayne Dobbs (3 hrs.)
Content: Experimental research in low temperature solid state physics
"General University Physics", PHY 232, Spring, 1994 (Recitation Instructor, two secs.)
Text: R. Serway, "Physics: for Scientists and Engineers", 3rd Ed. (Saunders, Philadelphia, 1992)
Content: Second semester of an advanced, calculus-based general course covering electricity, magnetism and optics.
"General University Physics Laboratory", PHY 242, Spring, 1994 (Laboratory Supervisor)
Text: J. S. Miller and F. O. Clark, "Laboratory Manual for PHY 242", 4th Ed.
Content: Second semester of a one-year laboratory course that is companion to PHY 232, the second semester of a one-year, calculus-based, general physics course for scientists and engineers
"Research in Physics", PHY 790, Spring, 1994
Student: Billy Wayne Dobbs (3 hrs.)
Content: Experimental research in low temperature solid state physics
"General University Physics Laboratory", PHY 242, Fall, 1994 (Laboratory Supervisor)
Text: J. S. Miller and F. O. Clark, "Laboratory Manual for PHY 242", 4th Ed.
Content: Second semester of a one-year laboratory course that is companion to PHY 232, the second semester of a one-year, calculus-based, general physics course for scientists and engineers
"Special Topical Graduate Course: Seminar in Teaching Physics", GS 600, Fall, 1994 (Instructor)
Content: A graded seminar for graduate teaching assistants in PHY 242 (General Physics Laboratory), with one two-hour meeting each week. TA's discuss the problems encountered in teaching PHY 242 sections, and how better experiments and methodologies may be developed. Each TA prepares a "Thought Problem", which is an extension of one of the regular experimental procedures in the PHY 242 lab manual. The Thought Problems are designed to stimulate creative thinking and problem solving logic by posing an experimental task for which no complete write-up exists, and asking the student to design and use a procedure to complete the task, and to prepare a meaningful lab report on his/her findings.
"Electronic Instrumentation and Measurements", PHY 402G, Fall, 1994 (Lecture and Laboratory, with one TA)
Text: R. E. Simpson, "Introductory Electronics for Scientists and Engineers" (Allyn and Bacon, Boston, 2nd Ed., 1987)
Content: Elementary laboratory treatment of electronic circuits, including ac circuit theory, filters, simple transistor and diode circuits, operational amplifier circuits, feedback, and noise. Students attend two hours of lecture and three hours of lab per week.
"General University Physics Laboratory", PHY 242, Spring, 1995 (Laboratory Supervisor)
Text: J. S. Miller and F. O. Clark, "Laboratory Manual for PHY 242", 4th Ed.
Content: Second semester of a one-year laboratory course that is companion to PHY 232, the second semester of a one-year, calculus-based, general physics course for scientists and engineers
"General Elementary Physics", PHY 201/211, Spring, 1995 (Lecture Instructor)
Text: R. Serway and J. Faughn, "College Physics" (Saunders College, Orlando, 4th Ed., 1994)
Content: First semester of a one-year, noncalculus-based course in general physics with or without laboratory
"Electronic Instrumentation and Measurements", PHY 402G, Fall, 1995 (Lecture and Laboratory, with one TA)
Text: R. E. Simpson, "Introductory Electronics for Scientists and Engineers" (Allyn and Bacon, Boston, 2nd Ed., 1987)
Content: Elementary laboratory treatment of electronic circuits, including ac circuit theory, filters, simple transistor and diode circuits, operational amplifier circuits, feedback, and noise. Students attend two hours of lecture and three hours of lab per week.
"General University Physics Laboratory", PHY 242, Fall, 1995 (Laboratory Supervisor)
Text: L. E. De Long and J. C. Aguilar, "Laboratory Manual for PHY 242", 1st Ed. (Hayden-McNeil Publishing, Inc., Plymouth, MI, 1995)
Content: Second semester of a one-year laboratory course that is companion to PHY 232, the second semester of a one-year, calculus-based, general physics course for scientists and engineers
"Seminar in Teaching Physics", PHY 571, Fall, 1995 (Instructor)
Content: A graded seminar for graduate teaching assistants in PHY 242 (General Physics Laboratory), with a one-hour meeting each week. TA's discuss the problems encountered in teaching PHY 242 sections, and how better experiments and methodologies may be developed.
"Introduction to Physics", PHY 151, Spring, 1996 (Lecture Instructor)
Texts: R. H. March, "Physics for Poets", 3rd Ed. (Mc Graw-Hill, New York, 1992)
Martin and Inge Goldstein, "The Refrigerator and the Universe" (Harvard U. Press, 1993)
Content: A lecture demonstration course in elementary physics covering mechanics and heat for nonscience majors with little math background
"General University Physics Laboratory", PHY 242, Spring, 1996 (Laboratory Supervisor)
Text: L. E. De Long and J. C. Aguilar, "Laboratory Manual for PHY 242", 2nd Ed. (Hayden-McNeil Publishing, Inc., Plymouth, MI, 1995)
Content: Second semester of a one-year laboratory course that is companion to PHY 232, the second semester of a one-year, calculus-based, general physics course for scientists and engineers
"Introduction to Physics", PHY 151, Summer, 1996 (Lecture Instructor)
Texts: R. H. March, "Physics for Poets", 4th Ed. (Mc Graw-Hill, New York, 1996)
Martin and Inge Goldstein, "The Refrigerator and the Universe" (Harvard U. Press, 1993)
Content: A lecture demonstration course in elementary physics covering mechanics and heat for nonscience majors with little math background
"General University Physics Laboratory", PHY 242, Fall, 1996 (Laboratory Supervisor)
Text: L. E. De Long and J. C. Aguilar, "Laboratory Manual for PHY 242", 3rd Ed. (Hayden-McNeil Publishing, Inc., Plymouth, MI, 1996)
Content: Second semester of a one-year laboratory course that is companion to PHY 232, the second semester of a one-year, calculus-based, general physics course for scientists and engineers
"Seminar in Teaching Physics", PHY 571, Fall, 1996 (Instructor)
Content: A graded seminar for graduate teaching assistants in PHY 242 (General Physics Laboratory), with a one-hour meeting each week. TA's discuss the problems encountered in teaching PHY 242 sections, and how better experiments and methodologies may be developed.
"Introduction to Physics", PHY 152, Fall, 1996 (Lecture Instructor)
Text: R. H. March, "Physics for Poets", 3rd Ed. (Mc Graw-Hill, New York, 1992)
Content: A lecture demonstration course in electricity, magnetism, waves and special relativity, for nonscience majors with little math background.
"General University Physics Laboratory", PHY 242, Spring, 1997 (Laboratory Supervisor)
Text: L. E. De Long and J. C. Aguilar, "Laboratory Manual for PHY 242", 3rd Ed. (Hayden-McNeil Publishing, Inc., Plymouth, MI, 1996)
Content: Second semester of a one-year, one-hour laboratory course that is companion to PHY 232, the second semester of a one-year, four-hour, calculus-based, general physics course for scientists and engineers.
"Seminar in Teaching Physics", PHY 571, Spring, 1997 (Instructor)
Content: A one-hour, graded seminar for graduate teaching assistants in PHY 242
(General Physics Laboratory), with a one-hour meeting each week. TA's discuss the problems encountered in teaching PHY 242 sections, and how better experiments and methodologies may be developed.
"Introduction to Physics", PHY 152, Spring, 1997 (Lecture Instructor)
Text: P. Hewitt, “Conceptual Physics”, 7th Ed. (Harper-Collins Publishers, New York, 1993)
Content: A three-hour, lecture demonstration course in electricity, magnetism, waves and special relativity, for nonscience majors with little math background.
"Introduction to Physics", PHY 151, Summer, 1997 (Lecture Instructor)
Text: L. A. Bloomfield, “How Things Work”, 1st Ed. (J. Wiley & Sons, New York, 1997)
Content: A three-hour lecture demonstration course in elementary physics covering mechanics and heat for nonscience majors with little math background
"General University Physics Laboratory", PHY 242, Fall, 1997 (Laboratory Supervisor)
Text: L. E. De Long and J. C. Aguilar, "Laboratory Manual for PHY 242", 4th Ed. (Hayden-McNeil Publishing, Inc., Plymouth, MI, 1997)
Content: Second semester of a one-year, one-hour, laboratory course that is companion to PHY 232, the second semester of a one-year, four-hour, calculus-based, general physics course for scientists and engineers.
"Seminar in Teaching Physics", PHY 571, Fall, 1997 (Instructor)
Content: A one-hour, graded seminar for graduate teaching assistants in PHY 242
(General Physics Laboratory), with a one-hour meeting each week. TA's discuss the problems encountered in teaching PHY 242 sections, and how better experiments and methodologies may be developed.
“Introduction to Quantum Mechanics”, PHY 520, Fall, 1997 (Lecture Instructor)
Text: S. Gasiorowicz, “Quantum Physics”, 2nd Ed., (John Wiley & Sons, New York, 1996)
Content: A three-hour, lecture and problem course in elementary quantum mechanics, with emphasis on the Schrödinger wave theory of the free particle, simple potential wells, WKB theory, the harmonic oscillator, orbital angular momentum and hydrogen atom.
"Introduction to Physics", PHY 152, Spring, 1998 (Lecture Instructor)
Text: P. Hewitt, “Conceptual Physics”, 8th Ed. (Addison-Wesley, Reading, MA, 1998)
Content: A three-hour, lecture demonstration course in electricity, magnetism, waves and special relativity, for nonscience majors with little math background.
"General University Physics Laboratory", PHY 242, Spring, 1998 (Laboratory Supervisor)
Text: L. E. De Long and J. C. Aguilar, "Laboratory Manual for PHY 242", 4th Ed. (Hayden-McNeil Publishing, Inc., Plymouth, MI, 1997)
Content: Second semester of a one-year, one-hour, laboratory course that is companion to PHY 232, the second semester of a one-year, four-hour, calculus-based, general physics course for scientists and engineers.
"Seminar in Teaching Physics", PHY 571, Spring, 1998 (Instructor)
Content: A one-hour, graded seminar for graduate teaching assistants in PHY 242
(General Physics Laboratory), with a one-hour meeting each week. TA's discuss the problems encountered in teaching PHY 242 sections, and how better experiments and methodologies may be developed.
"General University Physics Laboratory", PHY 242, Fall, 1998 (Laboratory Supervisor)
Text: L. De Long, J.-C. Aguilar, S. Ellis, A. Martin and L. A. Johnson, "Laboratory Manual for PHY 242", 5th Ed. (locally printed, 1998)
Content: Second semester of a one-year, one-hour, laboratory course that is companion to PHY 232, the second semester of a one-year, four-hour, calculus-based, general physics course for scientists and engineers.
“Heat and Thermodynamics”, PHY 522, Fall, 1998 (Lecture Instructor)
Text: C. J. Adkins, “Equilibrium Thermodynamics”, 3rd Ed. (Cambridge University Press, Cambridge, UK, 1994)
Content: A three-hour lecture and problem course on the macroscopic theory of thermal physics, including the Zeroth thru Third Laws of Thermodynamics, thermal potentials, entropy; analyses of simple systems such as the ideal gas, simple magnetic materials and phase transitions.
"Seminar in Teaching Physics", PHY 571, Spring, 1999 (Instructor)
Content: A one-hour, graded seminar for graduate teaching assistants in PHY 242
(General Physics Laboratory), with a one-hour meeting each week. TA's discuss the problems encountered in teaching PHY 242 sections, and how better experiments and methodologies may be developed.
"General University Physics Laboratory", PHY 242, Spring, 1999 (Laboratory Supervisor and Instructor for two Sections)
Text: L. De Long, J.-C. Aguilar, S. Ellis, A. Martin and L. A. Johnson, "Laboratory Manual for PHY 242", 5th Ed. (locally printed, 1998)
Content: Second semester of a one-year, one-hour, laboratory course that is companion to PHY 232, the second semester of a one-year, four-hour, calculus-based, general physics course for scientists and engineers.
"General University Physics Laboratory", PHY 242, Fall, 1999 (Laboratory Supervisor)
Text: L. De Long, J.-C. Aguilar, S. Ellis, A. Martin and L. A. Johnson, "Laboratory Manual for PHY 242", 6th Ed. (locally printed, 1999)
Content: Second semester of a one-year, one-hour, laboratory course that is companion to PHY 232, the second semester of a one-year, four-hour, calculus-based, general physics course for scientists and engineers.
“Heat and Thermodynamics”, PHY 522, Fall, 1999 (Lecture Instructor)
Text: C. J. Adkins, “Equilibrium Thermodynamics”, 3rd Ed. (Cambridge University Press, Cambridge, UK, 1994)
Content: A three-hour lecture and problem course on the macroscopic theory of thermal physics, including the Zeroth thru Third Laws of Thermodynamics, thermal potentials, entropy; analyses of simple systems such as the ideal gas, simple magnetic materials and phase transitions.
"General University Physics Laboratory", PHY 242, Spring, 2000 (Laboratory Supervisor)
Text: L. De Long, J.-C. Aguilar, S. Ellis, A. Martin and L. A. Johnson, "Laboratory Manual for PHY 242", 7th Ed. (locally printed, 2000)
Content: Second semester of a one-year, one-hour, laboratory course that is companion to PHY 232, the second semester of a one-year, four-hour, calculus-based, general physics course for scientists and engineers.
"General Elementary Physics", PHY 201/211, Spring, 2000 (Recitation Instructor)
Text: D. C. Giancoli, "Physics Principles with Applications" (Prentice Hall, Englewood Cliffs, NJ, 5th Ed., 1999)
Content: First semester of a one-year, noncalculus-based course in general physics with or without laboratory
"General University Physics Laboratory", PHY 242, Fall, 2000 (Laboratory Supervisor and Instructor for three Sections)
Text: L. De Long, J.-C. Aguilar, S. Ellis, A. Martin and L. A. Johnson, "Laboratory Manual for PHY 242", 8th Ed. (locally printed, 2000)
Content: Second semester of a one-year, one-hour, laboratory course that is companion to PHY 232, the second semester of a one-year, four-hour, calculus-based, general physics course for scientists and engineers.
"Seminar in Teaching Physics", PHY 571, Fall, 2000 (Instructor)
Content: A one-hour, graded seminar for graduate teaching assistants in PHY 242
(General Physics Laboratory), with a one-hour meeting each week. TA's discuss the problems encountered in teaching PHY 242 sections, and how better experiments and methodologies may be developed.
"General University Physics Laboratory", PHY 242, Spring, 2001 (Laboratory Supervisor and Instructor for three Sections)
Text: L. De Long, J.-C. Aguilar, S. Ellis, A. Martin and L. A. Johnson, "Laboratory Manual for PHY 242", 8th Ed. (locally printed, 2000)
Content: Second semester of a one-year, one-hour, laboratory course that is companion to PHY 232, the second semester of a one-year, four-hour, calculus-based, general physics course for scientists and engineers.
"Seminar in Teaching Physics", PHY 571, Spring, 2001 (Instructor)
Content: A one-hour, graded seminar for graduate teaching assistants in PHY 242
(General Physics Laboratory), with a one-hour meeting each week. TA's discuss the problems encountered in teaching PHY 242 sections, and how better experiments and methodologies may be developed.
“Heat and Thermodynamics”, PHY 522, Fall, 2001 (Lecture Instructor)
Content: A three-hour lecture and problem course on the macroscopic theory of thermal physics, including the Zeroth thru Third Laws of Thermodynamics, thermal potentials, entropy, and a survey of elementary statistical mechanics of classical and quantum systems, such as the ideal gas, simple magnetic materials and phase transitions.
"General University Physics", PHY 232, Fall, 2001 (Recitation Instructor)
Text: R. Serway and R. Beichner, "Physics: for Scientists and Engineers", 3rd Ed. (Saunders, Philadelphia, 1992)
Content: Second semester of an advanced, calculus-based general course covering electricity, magnetism and optics.
"General University Physics", PHY 231, Fall, 2002 (Recitation Instructor)
Text: R. Serway and R. Beichner, "Physics: for Scientists and Engineers", 5th Ed. (Brooks/Cole--Thompson Learning Inc., 2000)
Content: First semester of an advanced, calculus-based general course covering mechanics and thermophysics.
"General University Physics", PHY 232, Fall, 2002 (Recitation Instructor)
Text: R. Serway and R. Beichner, "Physics: for Scientists and Engineers", 5th Ed. (Brooks/Cole--Thompson Learning Inc., 2000)
Content: Second semester of an advanced, calculus-based general course covering electricity, magnetism and optics.
"General University Physics", PHY 231, Spring, 2003 (Recitation Instructor)
Text: R. Serway and R. Beichner, "Physics: for Scientists and Engineers", 5th Ed. (Brooks/Cole--Thompson Learning Inc., 2000)
Content: First semester of an advanced, calculus-based general course covering mechanics and thermophysics.
"General University Physics", PHY 232, Spring, 2003 (Recitation Instructor)
Text: R. Serway and R. Beichner, "Physics: for Scientists and Engineers", 5th Ed. (Brooks/Cole--Thompson Learning Inc., 2000)
Content: Second semester of an advanced, calculus-based general course covering electricity, magnetism and optics.
"General University Physics", PHY 232, Fall, 2003 (Recitation Instructor)
Text: R. Serway and R. Beichner, "Physics: for Scientists and Engineers", 5th Ed. (Brooks/Cole--Thompson Learning Inc., 2000)
Content: Second semester of an advanced, calculus-based general course covering electricity, magnetism and optics.
“Solid State Physics”, PHY 525, Fall, 2003 (Instructor)
Text: “Solid State Physics”, 7th Edition (John Wiley and Sons, New York, 1996)
Content: Second semester of a three-hour, intermediate-level, lecture and problem course providing an introduction to solid state or condensed matter physics for physicists or other science majors. Topics include cooperative phenomena such as magnetism, ferroelectricity superconductivity, and general models of phase transitions in condensed matter.
“Solid State Physics”, PHY524, Spring, 2004 (Instructor)
Text: “Solid State Physics”, 7th Edition (John Wiley and Sons, New York, 1996)
Content: First semester of a three-hour, intermediate-level, lecture and problem course providing an introduction to solid state or condensed matter physics for physicists or other science majors. Topics include crystal structure, bonding and cohesive energy, crystal diffraction, elasticity and lattice vibrations, free-electron model, band structure and semiconductors.
“General Physics”, PHY213, Spring, 2004 (Recitation Instructor)
Text: D. C. Giancoli, “Physics Principles with Applications”, 5th Edition (Prentice Hall, Upper Saddle River, NJ, 1998)
Content: Second semester of an algebra-based survey course, covering electricity and magnetism, electrical circuits, Maxwell’s equations, optics and electromagnetic radiation, and some modern physics.
“Advanced Mechanics”, PHY 504, Fall, 2004 (Lecturer and Grader)
Text: H. Goldstein, C. Poole and J. Safko, “Classical Mechanics”, 3rd Edition (Addison- Wesley, New York, 2002)
Content: Core graduate course covering variational formulations of analytical mechanics, including Lagrangian and introductory Hamiltonian methods, with applications in the motion of systems of particles, rigid bodies, central forces and small oscillations.
“Solid State Physics”, PHY524, Spring, 2005 (Instructor)
Text: “Solid State Physics”, 8th Edition (John Wiley and Sons, New York, 2005)
Content: First semester of a three-hour, intermediate-level, lecture and problem course providing an introduction to solid state or condensed matter physics for physicists or other science majors. Topics include crystal structure, bonding and cohesive energy, crystal diffraction, elasticity and lattice vibrations, free-electron model, band structure and semiconductors.
"General University Physics", PHY 232, Spring, 2005 (Recitation Instructor)
Text: R. D. Knight, "Physics for Scientists and Engineers", 1st Ed. (Addison-Wesley, New York, 2004)
Content: Second semester of an advanced, calculus-based general course covering electricity, magnetism and optics.
“Advanced Mechanics”, PHY 504, Fall, 2005 (Lecturer and Grader)
Text: H. Goldstein, C. Poole and J. Safko, “Classical Mechanics”, 3rd Edition (Addison- Wesley, New York, 2002)
Content: Core graduate course covering variational formulations of analytical mechanics, including Lagrangian and introductory Hamiltonian methods, with applications in the motion of systems of particles, rigid bodies, central forces and small oscillations.
“General Physics”, PHY213, Spring, 2006 (Recitation Instructor)
Text: R. A. Serway and J. S. Faughn, “College Physics”, 7th Edition (Thompson Brookes/Cole, Belmont, CA, 2006)
Content: Second semester of an algebra-based survey course, covering electricity and magnetism, electrical circuits, Maxwell’s equations, optics and electromagnetic radiation, and some modern physics.
“Physics and Astronomy for Elementary Teachers”, PHY160, Fall, 2006 (Instructor)
Text: L. C. McDermott, “Physics by Inquiry”, Vols. I and II, 1st Edition (John Wiley and Sons, New York, 1996)
Content: Basic concepts of mechanics, light, electricity, magnetism and astronomy for elementary teachers, using inquiry-based laboratory activities.
“Physics and Astronomy for Elementary Teachers”, PHY160, Spring, 2007 (Instructor)
Text: Joseph Straley, experimental notes (course version under development at UK by Prof. Straley)
Content: Basic concepts of mechanics, light, electricity, magnetism and astronomy for elementary teachers, using inquiry-based laboratory activities.
“General Physics”, PHY211, Spring, 2007 (Recitation Instructor)
Text: R. A. Serway and J. S. Faughn, “College Physics”, 7th Edition (Thompson Brookes/Cole, Belmont, CA, 2006)
Content: First semester of an algebra-based survey course, covering mechanics and
thermal physics.
“Review of Lower Division Physics Laboratories”, Lance E. De Long (Reviewer), Fall, 2007 Semester
Coverage: PHY211, PHY213 Laboratories, PHY241, PHY242 Laboratory Courses
Purpose: To provide a review of the nature and effectiveness of current laboratory exercises, TA instruction and equipment for educating University of Kentucky students in the largest-enrollment, Lower Division physics courses. Prof. De Long observed in-class instruction and TA meetings on a weekly basis, and submitted a comprehensive report to the Department of Physics and Astronomy in January, 2008.
“Solid State Physics”, PHY525, Spring, 2008 (Instructor)
Texts: C. Kittel, “Solid State Physics”, 8th Edition (John Wiley and Sons, New York, 2005), and S. Blundell, “Magnetism in Condensed Matter” (Oxford University Press, Oxford, 2007)
Content: Second semester of a three-hour, intermediate-level, lecture and problem course providing an introduction to solid state or condensed matter physics for physicists or other science majors. Topics included magnetic properties of materials, interacting and non- interacting magnetic systems.
“Independent Work in Physics”, PHY395, Spring, 2008 (Mentor for Mr. Mohammed Srout)
Content: Mr. Srout was an exchange student from Morocco in his Junior year. He chose to work on “Building and Testing a 3He Evaporation Refrigerator”, which mainly consisted of completing the wiring for electrical heaters and resistance thermometers on an existing cryostat assembly. He learned basic engineering drawing, electrical circuit hookup and
low temperature techniques associated with electrical measurements. A final report was submitted to the Director of Undergraduate Studies.
“Solid State Physics”, PHY524, Fall, 2008 (Instructor)
Text: “Solid State Physics”, 8th Edition (John Wiley and Sons, New York, 2005)
Content: First semester of a three-hour, intermediate-level, lecture and problem course providing an introduction to solid state or condensed matter physics for physicists or other science majors. Topics include crystal structure, bonding and cohesive energy, crystal diffraction, elasticity and lattice vibrations, free-electron model, band structure and semiconductors.
“University Physics Laboratory Development”, PHY241(E), Spring, 2009 (Instructor)
Text and Curriculum Development
Content: Two Learning Assistants, Mr. Kenneth Burns and Mr. Michael Detisch, were supervised in a weekly two-hour meeting (PHY160 format) in which novel laboratory exercises were tested for inclusion in a new “hands-on” lower division laboratory for physics majors. A report and Course Outline were prepared and submitted to the Department of Physics and Astronomy at the close of the Semester.
“Solid State Physics”, PHY525, Fall, 2009 (Instructor)
Texts: C. Kittel, “Solid State Physics”, 8th Edition (John Wiley and Sons, New York, 2005), and J. F. Annett, “Superconductivity, Superfluids and Condensates” (Oxford University Press, Oxford, 2004)
Content: Second semester of a three-hour, intermediate-level, lecture and problem course providing an introduction to solid state or condensed matter physics for physicists or other science majors. Topics included general magnetic properties of materials, dielectric screening, Cooper pairing and superconductivity.
“Solid State Physics”, PHY524, Sping, 2010 (Instructor)
Text: “Solid State Physics”, 8th Edition (John Wiley and Sons, New York, 2005)
Content: First semester of a three-hour, intermediate-level, lecture and problem course providing an introduction to solid state or condensed matter physics for physicists or other science majors. Topics include crystal structure, bonding and cohesive energy, crystal diffraction, elasticity and lattice vibrations, free-electron model, band structure and semiconductors.
“Thermodynamics and Statistical Physics”, PHY 522, Fall, 2010 (Lecture Instructor)
Content: A three-hour lecture and problem course on the macroscopic theory of thermal physics, including the Zeroth thru Third Laws of Thermodynamics, thermal potentials, entropy, and a survey of elementary statistical mechanics of classical and quantum systems, such as the ideal gas, simple magnetic materials and phase transitions.
“Solid State Physics”, PHY524, Sping, 2011 (Instructor)
Text: “Solid State Physics”, 8th Edition (John Wiley and Sons, New York, 2005)
Content: First semester of a three-hour, intermediate-level, lecture and problem course providing an introduction to solid state or condensed matter physics for physicists or other science majors. Topics include crystal structure, bonding and cohesive energy, crystal diffraction, elasticity and lattice vibrations, free-electron model, band structure and semiconductors.
“Condensed Matter Physics”, PHY525, Fall, 2011 (Instructor)
Texts: C. Kittel, “Solid State Physics”, 8th Edition (John Wiley and Sons, New York, 2005), and S. Blundell, “Magnetism in Condensed Matter” (Oxford University Press, Oxford, 2001)
Content: Second semester of a three-hour, intermediate-level, lecture and problem course providing an introduction to solid state or condensed matter physics for physicists or other science majors. Topics included general magnetic and dielectric properties of materials.
Spring Semester, 2012: Sabbatical Leave at University of Kentucky
“Independent Work in Physics”: “Survey of Magnetism”, PHY781, Spring, 2012 (Instructor)
Text: S. Blundell, “Magnetism in Condensed Matter” (Oxford University Press, Oxford, 2001); various resources from literature.
Content: A problem/readings seminar with four Graduate Students attending.
“Thermal Physics”, PHY522, Fall, 2012 (Instructor)
Text: F. Reif, “Thermodynamics and Statistical Physics” (Waveland Press, Long Grove, IL, 2009)
Content: A lecture/problem course covering both bulk thermodynamics and statistical mechanics for advanced undergraduate physics students.
“Advanced Mechanics”, PHY 504, Fall, 2013 (Lecturer)
Texts: H. Goldstein, C. Poole and J. Safko, “Classical Mechanics”, 3rd Edition (Addison-Wesley, New York, 2002); C. Lanczos, “The Variational Principles of Mechanics” (Dover Publications, 4th Edition, New York, 1986).
Content: Core graduate course emphasizing variational formulations of analytical mechanics, including Lagrangian and introductory Hamiltonian methods, with applications in the motion of systems of particles, rigid bodies, central forces and small oscillations.
“Solid State Physics”, PHY524, Sping, 2014 (Instructor)
Text: “Solid State Physics”, 8th Edition (John Wiley and Sons, New York, 2005)
Content: First semester of a three-hour, intermediate-level, lecture and problem course providing an introduction to solid state or condensed matter physics for physicists or other science majors. Topics include crystal structure, bonding and cohesive energy, crystal diffraction, elasticity and lattice vibrations, free-electron model, band structure and semiconductors.
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