General Quantum Physics Experiments
Quantum Optics & Quantum Entanglement
Quantum Imaging & Quantum Information
Quantum Computer Physics
Principal Investigator: Dr. Mandip Singh, Associate Professor of Physics, IISER Mohali, India.
Research Interests: Quantum optics, optics, general quantum physics experiments, quantum entanglement, quantum computing physics, BEC experiments and foundations of physics.
Education:
PhD in experimental physics, Swinburne University of Technology, Melbourne, Australia.
Master of Technology in Opto-electronics and Optical Communication (M.Tech-interdisciplinary degree, Department of physics and Department of electrical engineering), Indian Institute of Technology Delhi (IIT Delhi), India. [GATE-Scholarship]
Master of Science (M.Sc.) in Physics, Guru Nanak Dev University, India.
Post. Doc: Institute for Quantum Optics and Quantum Information (IQOQI), University of Vienna, Austria. (Prof. Zeilinger group-Nobel Laureate 2022)
Research Grants Procured as sole PI: Theme- Quantum Enabled Science and Technology, “Quantum Information Technologies with Photonic Devices".
Project Title: Quantum imaging and quantum information processing with photons.
RESEARCH THEMES
HYPER-ENTANGLED PHOTONS & QUANTUM IMAGING
Photo: 2015
General quantum Physics Experiments
QUANTUM COMPUTING PHYSICS
Experiment under construction: Photo: 2015
RESEARCH HIGHLIGHT
Quantum double slit experiment with reversible detection of photons
-Quantum interference is produced with Einstein Podolsky Rosen (EPR) continuous variable entangled photons by first detecting a photon on a screen, where another photon is passed through a double slit afterwards and detected at a fixed location. Both photons are separated by a light-like interval. The interference produced on the screen has no classical analogue.
Published in Scientific Reports: Quantum double slit experiment with reversible detection of photons, Vipin Devrari and Mandip Singh, Sci.Rep. 14, 20438 (2024). PDF
ATOM CHIP & ULTRA-COLD ATOMS
Past lab and experiments that I have setup in 2012 onwards. After this, photonic entanglement experiments were started and continued.
An atom chip: Photo:2016
Laser Cooling and Trapping: Ultracold Atoms Lab (IISERM)