Yogesh N. Joglekar
Assistant Professor

Email Yogesh Joglekar (yojoglek AT iupui DOT edu)

Phone: 1-317-274-6911

Education

1996: Integrated M.Sc. (Physics), Indian Institute of Technology, Kanpur.
2001: Ph.D. (Physics), Indiana University, Bloomington.

Research

Non-uniform states in quantum Hall regime..
Excitonic supersolid and superfluid states in semiconductors and graphene.
More information about my research group and interests is here.
If you are a strong, motivated student interested in research, please contact me.

Teaching

Fall 2009: P152 Honors-project advisor.

Spring 2009: P152 Mechanics (evening course).
Fall 2008: P152 Mechanics (Honors); P630 Classical Electrodynamics.
Spring 2008: P152 Mechanics (evening course).
Fall 2007: P630 Classical Electrodynamics.
Spring 2007: P152 Mechanics (evening course).
Spring 2006: P617 Statistical Mechanics.

Recent Publications and Preprints:

"Dilute" excitons in a double-layer system: single-exciton and mean-field approach.
C.R. Jamell, C.-H. Zhang, and Y.N. Joglekar, arXiv:0910.2993.

Numerical approach to Schrodinger equation in momentum space.
W.A. Karr, C.R. Jamell, and Y.N. Joglekar, arXiv:0910.0574.

Bilayer graphene Origami: curvature-induced p-n junctions.
Y.N. Joglekar and A. Saxena, Phys. Rev. B 80, 153405 (2009).

Current-voltage characteristics of a memristor.
Y.N. Joglekar, Contribution to the Wolfram Demostrations Project (2009).

Particle-in-a-box spectra with delta-function perturbation.
Y.N. Joglekar, Invited contribution to the Wolfram Demonstrations Project (2009).

Particle in a box with a delta-function potential: strong and weak coupling limits.
Y.N. Joglekar, Am. J. Phys. 77, 734 (2009).

The elusive memristor: signatures in basic electrical circuits.
Y.N. Joglekar and S.J. Wolf, Eur. J. Phys. 30, 661 (2009).

Excitonic condensation of massless fermions in graphene bilayers.
C.-H. Zhang and Y.N. Joglekar, Phys. Rev. B 77, 233405 (2008).

Influence of Landau-level mixing on Wigner crystallization in graphene.
C.-H. Zhang and Y.N. Joglekar, Phys. Rev. B 77, 205426 (2008).

Superflid density in high-Tc superconductors: enabled by holes or suppressed by electrons?
W.-C. Lee, J. Sinova, A.A. Burkov, Y.N. Joglekar, and A.H. MacDonald, Phys. Rev. B 77, 214518 (2008).