Urbasi Sinha is an Indian physicist and professor at the Raman Research Institute. Her research considers quantum information science and quantum photonics. She was named as one of Asia's Top 100 Scientists in 2018, appointed an Emmy Noether Fellow in 2020 and awarded the Chandrasekarendra Saraswathi National Eminence Award in 2023.
Urbasi Sinha | |
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Alma mater | University of Cambridge |
Scientific career | |
Institutions | Institute for Quantum Computing Raman Research Institute |
Thesis | Dielectric characterization using resonances in high Tc Josephson (2007) |
Early life and education
editSinha was born in London and completed her undergraduate and graduate degrees at the University of Cambridge. Her research considered superconducting devices.[1][2] Her doctorate involved explorations of the Josephson effect.[3][4] She moved to the Institute for Quantum Computing for her postdoctoral research,[5] where she became interested in quantum computing and optics. Here she developed a triple-slit variation to the double-slit experiment; testing the Born rule.[6][7] The Born rule predicts the probability that a measurement made in a quantum system will give a particular result.
Research and career
editWhen Sinha returned from Canada to Bangalore she was made a professor at the Raman Research Institute. Here she leads the Quantum Information and Computing lab (QuIC) laboratory. Here she started working on quantum photonics and the development of a quantum internet. Alongside technological applications, Sinha is interested in testing fundamental quantum phenomena, including Leggett–Garg inequality. In 2017 Sinha was appointed a Homi Bhabha Fellow at the Cavendish Laboratory.[8]
In 2020, Sinha was appointed an Emmy Noether Fellow at the Perimeter Institute for Theoretical Physics.[1] Her research group demonstrated a quantum communication channel between fixed and moving platforms in 2023.[9] Urbasi is involved with designing the National Quantum Mission India.[10]
In 2023, Sinha was earned a Canada Excellence Research Chair in Photonic Quantum Science and Technologies at the University of Calgary.[11][12]
Awards and honours
editSelect publications
edit- Urbasi Sinha; Christophe Couteau; Thomas Jennewein; Raymond Laflamme; Gregor Weihs (1 July 2010). "Ruling out multi-order interference in quantum mechanics". Science. 329 (5990): 418–421. arXiv:1007.4193. Bibcode:2010Sci...329..418S. doi:10.1126/SCIENCE.1190545. ISSN 0036-8075. PMID 20651147. Zbl 1226.81016. Wikidata Q34127474.
- Rahul Sawant; Joseph Samuel; Aninda Sinha; Supurna Sinha; Urbasi Sinha (19 September 2014). "Nonclassical paths in quantum interference experiments". Physical Review Letters. 113 (12): 120406. arXiv:1308.2022. doi:10.1103/PHYSREVLETT.113.120406. ISSN 0031-9007. PMID 25279612. Wikidata Q57162751.
- Urbasi Sinha; Christophe Couteau; Zachari Medendorp; et al. (2009), Testing Born’s Rule in Quantum Mechanics with a Triple Slit Experiment, arXiv:0811.2068, doi:10.1063/1.3109942, Wikidata Q62109689
Personal life
editHer husband, Aninda Sinha, is a high energy physicist at the Indian Institute of Science.[citation needed]
References
edit- ^ a b Simone, Rose (2022-08-09). "Sparks of discovery at the junction between theory and experiment".
- ^ "Biography | Gates Cambridge". Gates Cambridge -. 2020-06-25. Retrieved 2023-11-09.
- ^ a b "Asia's Scientific Trailblazers: Urbasi Sinha". Asian Scientist Magazine. 2018-11-27. Retrieved 2023-11-09.
- ^ Sinha, Urbina (2007). "Dielectric characterization using resonances in high Tc Josephson junction circuits".
- ^ "India's Optical Quantum Computing Expert | ICTP". www.ictp.it. Retrieved 2023-11-09.
- ^ Born to Rule - Dr. Urbasi Sinha explains the triple-slit experiment, retrieved 2023-11-09
- ^ Sinha, Urbasi. "Quantum Slits Open New Doors". Scientific American. Retrieved 2023-11-09.
- ^ a b "Homi Bhabha Fellowship". homibhabhafellowships.com. Retrieved 2023-11-09.
- ^ DHNS. "RRI research push to quantum tech applications". Deccan Herald. Retrieved 2023-11-09.
- ^ Sinha, Urbasi (2023-05-09). "A key milestone for a secure quantum future". Nature India. doi:10.1038/d44151-023-00049-5.
- ^ "Government of Canada welcomes world-renowned researchers that will push the boundaries of innovation".
- ^ "Competition Results".
- ^ "ICO/ICTP Gallieno Denardo Award Winner 2018 | ICTP". 2022.ictp.it. Retrieved 2023-11-09.