Steven Chu
Stanford University
333 Papers
2.5K Citations
Steven Chu is an academic researcher from Stanford University. The author has contributed to research in topics: Atom interferometer & Raman cooling. The author has an hindex of 105, co-authored 326 publications. Previous affiliations of Steven Chu include Bell Labs & King's College London.
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Papers
Observation of the 6 2P12−7 2P12 M1 transition in atomic thallium vapor
TL;DR: In this article, the parity violation in the neutral weak interaction was detected by observing a helicity dependence in the 6 2P12−72P12 absorption when the laser light is circularly polarized.
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Direct electrochemical generation of supercooled sulfur microdroplets well below their melting temperature.
Nian Liu,Nian Liu,Guangmin Zhou,Ankun Yang,Xiaoyun Yu,Feifei Shi,Jie Sun,Jinsong Zhang,Bofei Liu,Chun-Lan Wu,Xinyong Tao,Xinyong Tao,Yongming Sun,Yi Cui,Steven Chu +14 more
TL;DR: The formation of liquid sulfur in electrochemical cell enriches lithium-sulfur-electrolyte phase diagram and potentially may create new opportunities for high-energy Li-S batteries.
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Patent
Method and apparatus for manipulating atoms, ions or molecules and for measuring physical quantities using stimulated Raman transitions
Steven Chu,Mark A. Kasevich +1 more
- 14 Apr 1992
TL;DR: In this article, the authors proposed a method to move atoms, ions, and molecules by stimulating selected non-radiative energy levels within a quantum structure in accordance with the principles of stimulated Raman transitions.
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Active sub-Rayleigh alignment of parallel or antiparallel laser beams.
TL;DR: This work measures and stabilize the relative angle of parallel and antiparallel laser beams to 5 nrad/(square root of)Hz resolution by comparing the phases of radio frequency beat notes on a quadrant photodetector.
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In vitro methods for measuring force and velocity of the actin-myosin interaction using purified proteins.
Hans M. Warrick,Robert M. Simmons,Jeffrey T. Finer,Taro Q.P. Uyeda,Steven Chu,James A. Spudich +5 more
TL;DR: This chapter describes in vitro methods for measuring force and velocity of the actin–myosin interaction, using purified proteins, and the value of the step size could help to differentiate between different models of myosin function.
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