Marissa Giustina is an American physicist who is a senior research scientist at the Quantum Artificial Intelligence Lab. Her research considers the development of quantum computing and experimental tests of quantum theory.
Marissa Giustina | |
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Alma mater | Thayer School of Engineering University of Vienna |
Scientific career | |
Institutions | Quantum Artificial Intelligence Lab |
Thesis | Characterizing photoresponse in black silicon at excitation below the silicon bandgap (2010) |
Early life and education
editGiustina became interested in computing as a child.[1] She was an undergraduate student in mathematics at the Mary Baldwin University, where she had one woman physics teacher, who inspired her to pursue a career in engineering.[1] She moved to the Thayer School of Engineering at Dartmouth College for undergraduate and graduate studies, where she was mentored by Lorenza Viola.[1] Her research considered the photoresponse of black silicon below the silicon bandgap.[2] She moved to the University of Vienna in 2010, where she started doctoral research in the Institute for Quantum Optics and Quantum Information.[3] As part of her research, she developed an experiment to demonstrate quantum entanglement.[4] The equipment was based at the Hofburg Palance, and generated entangled pairs of photons which were coupled into glass fibres that were carried to measurement stations. The measurement stations included a random number generator to choose which orientation to measure the photon polarization in, and superconducting detectors to determine whether the photons had arrived. Her research provided validation for quantum entanglement.[4] The extraordinary detection sensitivity and spatial separation between the pair of detectors were enough to make the result a definitive proof of entanglement.[4] Her research on loophole-free texting of Bell experiments was recognized with the Paul Ehrenfest Best Paper Award.[5][6]
Research and career
editGiustina joined the Google Quantum Artificial Intelligence Lab in 2016.[7] She develops quantum computers,[8][9][10] which store information in a compressed form using quantum states. Her quantum computers are based on nonlinear superconducting elements, which comprise a Josephson junction integrated as a non-linear element.[1] This type of circuit operates at frequencies close to 5 GHz and produces two discrete states (0 and 1) as well as superpositions of states.[1] She is working to improve the functionality of quantum processors and attempting overcome decoherence.[1]
Giustina serves on the advisory board of the United States Department of Energy National Quantum Initiative Advisory Committee.[11] In 2020, she was selected as one of Fortune's 40 Under 40,[12] and in 2021 she was listed in the Future Tech Awards Future 50.[13]
In 2021, Giustina took part in Homeward Bound, an Australian leadership program.[14]
Selected publications
edit- Marissa Giustina; Marijn A M Versteegh; Sören Wengerowsky; et al. (16 December 2015). "Significant-Loophole-Free Test of Bell's Theorem with Entangled Photons". Physical Review Letters. 115 (25): 250401. arXiv:1511.03190. doi:10.1103/PHYSREVLETT.115.250401. ISSN 0031-9007. PMID 26722905. Wikidata Q50744887.
- Frank Arute; Kunal Arya; Ryan Babbush; et al. (23 October 2019). "Quantum supremacy using a programmable superconducting processor". Nature. 574 (7779): 505–510. arXiv:1910.11333. doi:10.1038/S41586-019-1666-5. ISSN 1476-4687. PMID 31645734. Wikidata Q78878570.
- Marissa Giustina; Alexandra Mech; Sven Ramelow; et al. (14 April 2013). "Bell violation using entangled photons without the fair-sampling assumption". Nature. 497 (7448): 227–230. arXiv:1212.0533. doi:10.1038/NATURE12012. ISSN 1476-4687. PMID 23584590. Wikidata Q46601665.
References
edit- ^ a b c d e f "Quantum Blog | Munich Center for Quantum Science and Technology". Quantum Blog | Munich Center for Quantum Science and Technology. Retrieved 2022-10-26.
- ^ "Characterizing photoresponse in black silicon at excitation below the silicon bandgap | WorldCat.org". www.worldcat.org. Retrieved 2022-10-26.
- ^ "A Student's Guide to Vienna". www.qschina.cn (in Chinese). 2013-03-27. Retrieved 2022-10-26.
- ^ a b c "Quantum Physics confirms "Spooky action at a distance"". medienportal.univie.ac.at (in German). Retrieved 2022-10-26.
- ^ "Congratulations to Marissa Giustina and Armin Hochrainer". coqus.at. Retrieved 2022-10-26.
- ^ "Marissa Giustina". stipendien.oeaw.ac.at. Retrieved 2022-10-26.
- ^ "Marissa Giustina". www.appliedsuperconductivity.org. Retrieved 2022-10-26.
- ^ Shankland, Stephen. "Quantum computers are on the path toward solving bigger problems". CNET. Retrieved 2022-10-26.
- ^ "World Quantum Day: Meet our researchers and play The Qubit Game". Google. 2022-04-14. Retrieved 2022-10-26.
- ^ "New Tiny Computers Could Have A Huge Impact". NPR.org. Retrieved 2022-10-26.
- ^ "NQIAC Members | U.S. DOE Office of Science(SC)". science.osti.gov. 2020-08-06. Retrieved 2022-10-26.
- ^ "Marissa Giustina | 2020 40 under 40 in Tech". Fortune. Retrieved 2022-10-26.
- ^ "Future 50 : Future Tech Awards 2021". www.theftas.com. Retrieved 2022-10-26.
- ^ "Marissa Guistina - Homeward Bound". 2021-08-23. Retrieved 2022-10-26.
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