Tabish Qureshi
From Wikipedia, the free encyclopedia
Tabish Qureshi is an Indian physicist, lecturer, and researcher involved in studies of foundational problems in quantum theory, particularly known for his correct solution of Popper's experiment.[1][2][3] Qureshi has finished his Ph.D. work in Jawaharlal Nehru University, New Delhi and worked as a post-doc at the Institute of Mathematical Sciences, Chennai for two and a half years. Then Qureshi has been employed at the Indira Gandhi Centre for Atomic Research (IGCAR) for nearly two years, until he ran into problems because of his stand against nuclear weapons. At present prof. Qureshi is Lecturer at Jamia Millia Islamia, New Delhi, India.
In the past two decades prof. Qureshi has worked and published novel results on quantum dissipative systems, quantum-classical correspondence and quantum coherence in condensed matter physics, as well as results on the structure and electronic properties of small clusters of metal atoms.[4][5][6][7][8][9][10][11][12][13][14][15][16]
Prof. Qureshi is currently one of the participants in the heated theoretical discussion concerning the analysis of Afshar experiment, which is a simple optical setup involving a lens. According to Qureshi's analysis there is no which way information at the image plane of the lens in coherent double slit setups, as this follows from standard QM formalism.[17]
[edit] References and notes
- ^ Qureshi T (2004). "Popper's experiment, Copenhagen interpretation and nonlocality". International Journal of Quantum Information 2 (3): 407-418.
- ^ Qureshi T (2005). "Understanding Popper's Experiment". The American Journal of Physics 53 (6): 541-544.
- ^ (2005) "On the realization of Popper's Experiment". arXiv: quant-ph/0505158.
- ^ Qureshi T, Venugopalan A (2006). "Decoherence and matter wave interferometry". International Journal of Modern Physics B, to appear.
- ^ Chingangbam P, Qureshi T (2005). "Two Particle Ghost Interference Demystified". submitted to Am. J. Phys..
- ^ Qureshi T, Rehman Z (2005). "Quantum Eraser Using Spin-1/2 Particles". submitted to Phys. Lett. A.
- ^ Chingangbam P, Qureshi T (2005). "Dynamics of rolling massive scalar field cosmology". Int. J. Mod. Phys. A 20 (26): 6083-6092.
- ^ Sami M, Chingangbam P, Qureshi T (2004). "Cosmological aspects of rolling tachyon". Pramana 62: 765.
- ^ Sami M, Chingangbam P, Qureshi T (2002). "Aspects of tachyonic inflation with an exponential potential". Phys. Rev. D 66: 043530.
- ^ Qureshi T, Kumar V (1998). "d-electron induced icosahedral growth in strontium clusters". 5th IUMRS Conference in Bangalore.
- ^ Qureshi T (1996). "Dynamics of a strongly damped two-level system". Phys. Rev. B 53: 3183-3189.
- ^ Qureshi T (1995). "Dynamics of tunneling centers in metallic systems". Phys. Rev. B 52: 7976-7981.
- ^ Qureshi T, Dattagupta S (1993). "Quantum diffusion of muons in metals". Phys. Rev. B 47: 1092.
- ^ Dattagupta S, Qureshi T (1991). "Theoretical analysis of low-temperature quantum tunneling of hydrogen in Nb(OH)x". Physica B 174: 262-267.
- ^ Qureshi T, Dattagupta S (1991). "Dynamics of an impurity spin coupled to a spin-boson dissipative system". J. Phys. Cond. Matt. 3: 1079-1087.
- ^ Qureshi T, Dattagupta S (1990). "Relaxation behavior of a biased two-level system in metals in the weak damping limit". Pramana 35: 579-591.
- ^ Qureshi T (2007). "Complementarity and the Afshar Experiment". arXiv: quant-ph/0701109.