Benjamin L. Lev

Benjamin L. Lev
Born	Colorado Springs, CO
Alma mater	Princeton University (A.B.) Caltech (Ph.D.)
Known for	Quantum many-body physics: •Dipolar quantum gases •Multimode cavity QED •Quantum sensors
Awards	Packard Fellowship [1] Presidential Early Career Award for Scientists and Engineers National Science Foundation CAREER Award
Scientific career
Fields	Atomic, molecular, and optical physics Quantum optics Quantum gases Quantum simulation Quantum sensing
Institutions	Stanford University
Doctoral advisor	Hideo Mabuchi
Other academic advisors	Jun Ye (postdoc)
Website	levlab.stanford.edu

Benjamin Leonard Lev is an American physicist and Professor of Physics and Applied Physics at Stanford University. ^{[2] [3] [4] [5]} He studies quantum many-body physics, both in and out of equilibrium, by combining the tools of ultracold atomic physics, quantum optics, and condensed matter physics.

Biography

Lev grew up in Crystal River, Florida, and attended Crystal River High School. He received his physics bachelor's degree magna cum laude from Princeton in 1999 and his physics Ph.D. from Caltech in 2005, working with Hideo Mabuchi. Lev was an NRC postdoc ^[6] at JILA with (2006-2007) Jun Ye and an assistant professor at the University of Illinois at Urbana-Champaign (2008-2011). He joined the Stanford faculty in 2011, where he is now Professor of Physics ^[3] and Applied Physics ^[4] and runs a quantum many-body physics research lab. ^[7]

Work

Lev's research focuses on exploring quantum many-body physics, especially in nonequilibrium settings. The contributions of his group include:

• The first laser cooling and trapping of dysprosium, ^[8] followed by the first creation of a Bose-Einstein condensate ^[9] (BEC) and a degenerate Fermi gas ^[10] of Dy. These were the first quantum gases of an open-shell lanthanide (rare-earth) element. ^[11] Dysprosium is the most magnetic fermionic element, and terbium and the bosonic isotopes of Dy are the most magnetic bosonic elements. ^[12] Together with prior work on BECs of chromium, ^[13] Lev's work opened new research directions using highly magnetic dipolar quantum gases for quantum many-body experiments. ^[11]
• The use of 1D gases of Dy to create a novel hierarchy of quantum many-body scar states in 2020. ^{[14] [15]} This was realized by the discovery of a dipolar stabilization mechanism that allows super-Tonks-Girardeau states to be prepared using a topological pump in energy space. ^{[14] [15]}
• Creation of the first optical lattice with sound. ^{[16] [17]} The lattice had phonon excitations and formed the first supersolid that possesses a key property of solids, vibration. This work was based on the system of confocal multimode cavity QED with BECs, which was developed by his group and collaborators. ^[18]
• Development of a quantum sensor called the SQCRAMscope, a Scanning Quantum Cryogenic Atom Microscope. ^{[19] [20]} It was employed in the imaging of nematic electron transport in iron-based superconductors. ^{[21] [22] [23]}

Awards and fellowships

Lev has received several awards for his work, including a Presidential Early Career Award for Scientists and Engineers (PECASE) from President Obama. ^{[24] [25]} and a Packard Foundation Fellowship, ^[26] as well as National Science Foundation CAREER Award ^[27] and Air Force Office of Scientific Research, DARPA, and Office of Naval Research Young Investigator Program awards. ^{[28] [29] [30]} Lev was elected a fellow of the American Physical Society ^[31] ``for groundbreaking experiments on quantum gases of lanthanide atoms with large magnetic dipole moments, theoretically proposing and experimentally demonstrating many-body multimode cavity QED for many-body physics and the demonstration of novel scanning quantum gas imaging of quantum materials." He serves on the editorial board of Physical Review X. ^[32]

References

1. "The David and Lucile Packard Foundation". The David and Lucile Packard Foundation. 2022-08-30. Retrieved 2023-03-11.
2. "Benjamin Lev's Profile". Stanford Profiles. Retrieved 2023-03-11.
3. "Benjamin Lev". Physics Department. Retrieved 2023-03-11.
4. "Benjamin Lev". Applied Physics Department. 2021-11-10. Retrieved 2023-03-11.
5. "Prof. Benjamin Lev". Lev Lab. 2021-11-10. Retrieved 2023-03-11.
6. "NRC postdoc". nationalacademies.org. Retrieved March 8, 2023.
7. "Lev Lab". Home. 2013-05-30. Retrieved 2023-03-11.
8. Lu, M.; Youn, S.-H.; Lev, B. (2010). "Trapping Ultracold Dysprosium: A Highly Magnetic Gas for Dipolar Physics". Physical Review Letters. 104 (6): 063001. arXiv: 0912.0050 . Bibcode:2010PhRvL.104f3001L. doi:10.1103/physrevlett.104.063001. PMID   20366817. S2CID   7614035.
9. Lu, M.; Burdick, N.; Youn, S.-H.; Lev, B. (2011). "Strongly Dipolar Bose-Einstein Condensate of Dysprosium". Physical Review Letters. 107 (19): 190401. arXiv: 1108.5993 . Bibcode:2011PhRvL.107s0401L. doi:10.1103/physrevlett.107.190401. PMID   22181585. S2CID   21945255.
10. Lu, M.; Burdick, N.; Lev, B. (2012). "Quantum Degenerate Dipolar Fermi Gas". Physical Review Letters. 108 (21): 215301. arXiv: 1202.4444 . Bibcode:2012PhRvL.108u5301L. doi:10.1103/physrevlett.108.215301. PMID   23003275. S2CID   15650840.
11. Chomaz, L.; Ferrier-Barbut, I.; Ferlaino, F.; Laburthe-Tolra, B.; Lev, B.; Pfau, T. (2022). "Dipolar physics: a review of experiments with magnetic quantum gases". Rep. Prog. Phys. 86 (2): 026401. arXiv: 2201.02672 . doi:10.1088/1361-6633/aca814. PMID   36583342. S2CID   245837061.
12. Martin, W C; Zalubas, R; Hagan, L (January 1978). "Atomic energy levels - the rare earth elements". OSTI.GOV. OSTI   6507735 . Retrieved 2023-03-11.
13. Lahaye, T; Menotti, C; Santos, L; Lewenstein, M; Pfau, T (2009-11-19). "The physics of dipolar bosonic quantum gases". Reports on Progress in Physics. 72 (12). IOP Publishing: 126401. arXiv: 0905.0386 . Bibcode:2009RPPh...72l6401L. doi:10.1088/0034-4885/72/12/126401. ISSN   0034-4885. S2CID   4888923.
14. Kao, W.; Li, K.-Y.; Lin, K.Y.; Gopalakrishnan, S.; Lev, B. (2021). "Topological pumping of a 1D dipolar gas into strongly correlated prethermal states". Science. 371 (6526): 296–300. arXiv: 2002.10475 . Bibcode:2021Sci...371..296K. doi:10.1126/science.abb4928. PMID   33446558. S2CID   231606819.
15. Kubota, T. (2021-01-14). "New state of matter in one-dimensional quantum gas". Stanford News. Retrieved 2023-03-11.
16. Guo, Yudan; Kroeze, Ronen M.; Marsh, Brendan P.; Gopalakrishnan, Sarang; Keeling, Jonathan; Lev, Benjamin L. (2021). "An optical lattice with sound". Nature. 599 (7884): 211–215. arXiv: 2104.13922 . Bibcode:2021Natur.599..211G. doi:10.1038/s41586-021-03945-x. PMID   34759361. S2CID   233423569.
17. Kubota, T. (2021-11-10). "Adding sound to quantum simulations". Stanford News. Retrieved 2023-03-10.
18. Vaidya, V.; Guo, Y.; Kroeze, R.; Ballantine, K.; Kollár, A.; Keeling, J.; Lev, B. (2017). "Tunable-range, photon-mediated atomic interactions in multimode cavity QED". Physical Review X. 8: 011002. arXiv: 1708.08933 . doi:10.1103/physrevx.8.011002. hdl: 10023/12271 . S2CID   41635927.
19. Yang, F.; Kollár, A.; Taylor, S.; Turner, R.; Lev, B. (2017). "Scanning Quantum Cryogenic Atom Microscope". Physical Review Applied. 7 (3): 034026. arXiv: 1608.06922 . Bibcode:2017PhRvP...7c4026Y. doi:10.1103/physrevapplied.7.034026. S2CID   41496962.
20. Wildermuth, S.; Hofferberth, S.; Lesanovsky, I.; Haller, E.; Andersson, L.-M.; Groth, S.; Bar-Joseph, I.; Krüger, P.; Schmiedmayer, J. (2005). "Microscopic magnetic-field imaging". Nature. 435 (7041). Springer Science and Business Media LLC: 440. doi: 10.1038/435440a . ISSN   0028-0836. PMID   15917796. S2CID   11297149.
21. Yang, F.; Taylor, S.; Edkins, S.; Palmstrom, J.; Fisher, I.; Lev, B. (2020). "Nematic transitions in iron pnictide superconductors imaged with a quantum gas". Nature Physics. 16 (5): 514–519. arXiv: 1907.12601 . Bibcode:2020NatPh..16..514Y. doi:10.1038/s41567-020-0826-8. S2CID   256705047.
22. Analytis, J. (2020). "Cooking with quantum gas". Nature Physics. 16 (5): 506–507. Bibcode:2020NatPh..16..506A. doi:10.1038/s41567-020-0861-5. S2CID   256706581.
23. Harris, M. (2020-11-27). "Ultracold atoms put high-temperature superconductors under the microscope – Physics World". Physics World. Retrieved 2023-03-11.
24. "President Obama Honors Outstanding Early-Career Scientists". whitehouse.gov. 2011-09-26. Retrieved 2023-03-11.
25. "President Obama Names Top U.S. Early Career Scientists and Engineers". NSF. 2011-10-17. Archived from the original on 2023-03-13. Retrieved 2023-03-11.
26. "Lev, Benjamin". The David and Lucile Packard Foundation. 2018-08-16. Retrieved 2023-03-11.
27. "Benjamin Lev Receives NSF CAREER Award". UIUC Physics Department. Retrieved 2023-03-11.
28. "AFOSR YIP Awards". af.mil. 16 October 2008. Retrieved March 8, 2023.
29. "DARPA YFA Awards". darpa.mil. Retrieved March 8, 2023.
30. "ONR YIP Awards". navy.mil. Retrieved March 8, 2023.
31. "APS Fellow Archive". aps.org. Retrieved March 8, 2023.
32. "Physical Review X Editorial Board". aps.org. Retrieved March 8, 2023.

External links

• LevLab Group Website at Stanford University
• Personal Homepage of Benjamin Lev
• Publications of Benjamin Lev indexed by Google Scholar

External media

• Virtual AMO Seminar: Ben Lev (Stanford University)