General Quantum Physics Experiments
Quantum Entanglement
Quantum Imaging & Quantum Information
Quantum Computer Physics
Research Publications:
Quantum double-slit experiment with reversible detection of photons, Vipin Devrari and Mandip Singh, Scientific Reports (Nature), 14, 20438 (2024).
Sub-tomographic imaging of a birefringent pattern localized in a phase space. Manpreet Kaur, Sheenam Saxena, Mandip Singh, Scientific Reports (Nature) 14, 2641 (2024).
Quantum ghost imaging of a polarisation sensitive phase pattern. Aditya Saxena, Manpreet Kaur, Vipin Devrari and Mandip Singh, Scientific Reports (Nature), 12, 21105 (2022).
Quantum imaging of a polarisation sensitive phase pattern with hyper-entangled photons. Manpreet Kaur and Mandip Singh, Scientific Reports (Nature), 11, 23636 (2021).
Spooky action at a distance also acts in the past, Mandip Singh, arXiv:2109.04151v2 [quant-ph] (2021)
In top 100 papers published in 2020 by the journal, Quantum double double-slit experiment with momentum entangled photons. Manpreet Kaur and Mandip Singh, Scientific Reports (Nature), 10:11427 (2020).
Quantum diffraction of position-momentum entangled photons from a sharp edge. Samridhi Gambhir and Mandip Singh, Phys. Letts. A. 383, 125889, (2019).
Three-dimensional imaging of a pattern localized in a phase space. Mandip Singh and Samridhi Gambhir, Phys. Rev. A, 98, 053828, (2018).
Featured on the cover page of the journal, Diffraction effects in mechani cally chopped laser pulses. Samridhi Gambhir and Mandip Singh, Am. J. Phys, 86, 406, (2018).
Intrinsic nonlinearity of a PN-junction diode and high harmonic generation. Sam ridhi Gambhir, Arvind and Mandip Singh, IAPT Physics Education,Vol 32, 2, Apr-Jun 2018, ISSN: 0970-5953.
Quantum Stern-Gerlach experiment and path entanglement of a Bose-Einstein condensation. Mandip Singh, Phys. Rev. A. 95, 043620, (2017).
Macroscopic quantum oscillator based on a flux-qubit. Mandip Singh, Phys. Letts. A., 379, 2001-2006, (2015).
A Bose-Einstein condensation of metastable helium for quantum correlation ex periments. Michael Keller, Mateusz Kotyrba, Florian Leupold, Mandip Singh, Maximillian Ebner and Anton Zeilinger. Phys. Rev. A. 90, 063607, (2014).
Einstein-Podolsky-Rosen correlations from colliding Bose-Einstein condensates. Johannes Kofler, Mandip Singh. Maximillian Ebner, Michael Keller, Mateusz Kotyrba and Anton Zeilinger. Phys. Rev. A. 86, 032115, (2012).
Effect of temperature and projection velocity on the reflection of ultracold atoms from a periodic 1D corrugated magnetic potential. Mandip Singh and Peter Hannaford, Phys. Rev. A. 82, 013416, (2010).
Dynamics of reflection of ultracold atoms from a periodic one-dimensional mag netic lattice potential. Mandip Singh, Russell McLean, Anderi Sidorov and Peter Hannaford, Phys. Rev. A. 79, 053407, (2009).
Macroscopic entanglement between a Bose-Einstein condensate and a supercon ducting loop. Mandip Singh, Optics Express, 17, 2600-10, (2009).
One dimensional lattice of permanent magnetic microtraps for ultracold atoms on an atom chip. Mandip Singh, Michael Volk, Alexander Akulshin, Russell McLean, Anderi Sidorov and Peter Hannaford. J. Phys. B: At. Mol. Opt. 41, 065301, (2008).
Steep atomic dispersion by velocity selective optical pumping. Alexander Akul shin, Mandip Singh, Russell McLean, Anderi Sidorov and Peter Hannaford. Optics Express, 16, 15363-6, (2008).
Book chapter: Bose Einstein condensates on magnetic film microstructures, Mandip Singh, Shannon Whitlock, Russell Anderson, Saeed Ghanbari, Bren ton.V. Hall, Michael Volk, Alexander Akulshin, Russell McLean, Anderi Sidorov, Peter Hannaford., Laser Spectroscopy, 228-239, (2008).