David Schmeltzer
Affiliations: | Physics | City University of New York, New York, NY, United States |
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Condensed Matter PhysicsGoogle:
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Publications
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Schmeltzer D. (2020) The Hall conductivity in Weyl semimetals as a tool to detect the axion field Annals of Physics. 420: 168237 |
Schmeltzer D. (2018) The S-matrix for surface boundary states: An application to photoemission for Weyl semimetals Annals of Physics. 396: 304-317 |
Schmeltzer D, Saxena A. (2015) Surface state photoelectrons in topological insulators: Green's function approach. Journal of Physics. Condensed Matter : An Institute of Physics Journal. 27: 485601 |
Schmeltzer D. (2015) The Andreev Crossed Reflection—A Majorana Path Integral Approach Journal of Modern Physics. 6: 1371-1379 |
Schmeltzer D, Saxena A. (2013) Interference effects for T2=-1 time reversal invariant topological insulators: Surface optical and Raman conductivity Physical Review B - Condensed Matter and Materials Physics. 88 |
Schmeltzer D, Saxena A. (2013) Magnetoelectric effect induced by electron-electron interaction in three dimensional topological insulators Physics Letters, Section a: General, Atomic and Solid State Physics. 377: 1631-1636 |
Schmeltzer D. (2012) A-geometrical approach to topological insulators with edge dislocations New Journal of Physics. 14 |
Schmeltzer D. (2011) Dirac's method for constraints: An application to quantum wires Journal of Physics Condensed Matter. 23 |
Schmeltzer D, Saxena A. (2010) Wave function in the presence of constraints: Persistent current in coupled rings Physical Review B - Condensed Matter and Materials Physics. 81 |
Schmeltzer D, Kuklov A, Malard M. (2010) A scaling approach for interacting quantum wires - A possible explanation for the 0.7 anomalous conductance Journal of Physics Condensed Matter. 22 |