Sheldon Cooper Resume
Sheldon L. Cooper
2311 N. Los Robles Avenue #4A, Pasadena, ca 91101
(167) 262-1777 • coopers@caltech.edu
OBJECTIVE
To obtain a tenured faculty position researching the existence of magnetic monopoles and their relation to a low entropy astrological past.
WORK EXPERIENCE
California Institute of Technology, Theoretical High Energy Physics
Postdoctoral Scholar
Research new theories of hadronization in baryons
Research magnetic monopoles in condensed-matter systems by modeling spin ice
Heidelberg Institute for Theoretical Studies, Theoretical Astrophysics
Visiting Professor
Lectured on supersymmetry in fermions
Applied for research grants to experimentally show asymptotic freedom in quarks and gluons
Jun. 2001 – Present
Pasadena, CA
Aug. 1996 – May 1997
Heidelberg, Germany
EDUCATION
Ph.D., Theoretical Physics
Dissertation Title: Black-hole Entropy in Loop Quantum Gravity
California Institute of Technology
GPA: 4.00
Ph.D., Theoretical Physics
Dissertation Title: Electroweak Baryogenesis and Low Energy Supersymmetry
University of Texas
GPA: 4.00
B.S., Physics
University of Texas
GPA: 3.99
May 2001
Pasadena, CA
May 1996
Austin, TX
May 1994
Austin, TX
PROFESSIONAL SKILLS
Experienced in MATLAB, C/C++, Java, C#, Python
AWARDS & HONORS
Caltech Chancellor's Award for Science
Stevenson Award
May 2003
Sept. 1994
PUBLICATIONS
S Cooper, L Hofstadter, Paradoxical Moment-of-Inertia Changes Due to Putative Super-Solids. Institute of Experimental Physics 2003 Conference, Warsaw, Poland, November 7-13, 2003.
S Cooper, Z Fang, N Nagaosa, The anomalous Hall effect and magnetic monopoles in momentum space. Science, Vol. 302 no. 5642 pp. 92-953, October 2003.
S Cooper, G Giudice, R Rattazzi, Theories with gauge-mediated supersymmetry breaking. Physics Reports, Volume 322, Issue 6, 1 December 1999, Pages 419–499
2311 N. Los Robles Avenue #4A, Pasadena, ca 91101
(167) 262-1777 • coopers@caltech.edu
OBJECTIVE
To obtain a tenured faculty position researching the existence of magnetic monopoles and their relation to a low entropy astrological past.
WORK EXPERIENCE
California Institute of Technology, Theoretical High Energy Physics
Postdoctoral Scholar
Research new theories of hadronization in baryons
Research magnetic monopoles in condensed-matter systems by modeling spin ice
Heidelberg Institute for Theoretical Studies, Theoretical Astrophysics
Visiting Professor
Lectured on supersymmetry in fermions
Applied for research grants to experimentally show asymptotic freedom in quarks and gluons
Jun. 2001 – Present
Pasadena, CA
Aug. 1996 – May 1997
Heidelberg, Germany
EDUCATION
Ph.D., Theoretical Physics
Dissertation Title: Black-hole Entropy in Loop Quantum Gravity
California Institute of Technology
GPA: 4.00
Ph.D., Theoretical Physics
Dissertation Title: Electroweak Baryogenesis and Low Energy Supersymmetry
University of Texas
GPA: 4.00
B.S., Physics
University of Texas
GPA: 3.99
May 2001
Pasadena, CA
May 1996
Austin, TX
May 1994
Austin, TX
PROFESSIONAL SKILLS
Experienced in MATLAB, C/C++, Java, C#, Python
AWARDS & HONORS
Caltech Chancellor's Award for Science
Stevenson Award
May 2003
Sept. 1994
PUBLICATIONS
S Cooper, L Hofstadter, Paradoxical Moment-of-Inertia Changes Due to Putative Super-Solids. Institute of Experimental Physics 2003 Conference, Warsaw, Poland, November 7-13, 2003.
S Cooper, Z Fang, N Nagaosa, The anomalous Hall effect and magnetic monopoles in momentum space. Science, Vol. 302 no. 5642 pp. 92-953, October 2003.
S Cooper, G Giudice, R Rattazzi, Theories with gauge-mediated supersymmetry breaking. Physics Reports, Volume 322, Issue 6, 1 December 1999, Pages 419–499