J. A. Isaacs
University of California, Berkeley
20 Papers
80 Citations
J. A. Isaacs is an academic researcher from University of California, Berkeley. The author has contributed to research in topics: Rydberg atom & Lens (optics). The author has an hindex of 8, co-authored 16 publications. Previous affiliations of J. A. Isaacs include University of Wisconsin-Madison & Lawrence Livermore National Laboratory.
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Papers
Hybrid atom-photon quantum gate in a superconducting microwave resonator
TL;DR: In this paper, a hybrid quantum gate between an atom and a microwave photon in a superconducting coplanar waveguide cavity was proposed by exploiting the strong resonant microwave coupling between adjacent Rydberg states.
Determination of the inclination of the multi-planet hosting star hr 8799 using asteroseismology*
Duncan J. Wright,André-Nicolas Chené,André-Nicolas Chené,P. De Cat,Christian Marois,P. Mathias,Bruce Macintosh,J. A. Isaacs,J. A. Isaacs,Holger Lehmann,M. Hartmann +10 more
TL;DR: In this article, the main frequency in the radial velocity data is 1.9875 day{sup -1}. This frequency corresponds to the main frequencies as found in previous photometric observations, using the FAMIAS software to identify the pulsation modes, and obtain the constraint that inclination i {approx}> 40{sup 0}.
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Optimized coplanar waveguide resonators for a superconductor–atom interface
TL;DR: In this paper, the authors describe the design and characterization of superconducting coplanar waveguide cavities tailored to facilitate strong coupling between superconding quantum circuits and single trapped Rydberg atoms.
Long working distance objective lenses for single atom trapping and imaging
TL;DR: In this article, a pair of optimized objective lenses with long working distances of 117mm and 65mm were presented for both Cs and Rb wavelengths when imaging through standard vacuum windows.
Collisional spin transfer in an atomic heteronuclear spinor Bose gas
Fang Fang,J. A. Isaacs,Aaron Smull,Katinka Horn,L. Dalila Robledo-De Basabe,Yimeng Wang,Chris H. Greene,Dan Stamper-Kurn,Dan Stamper-Kurn +8 more
- 31 Aug 2020
TL;DR: In this paper, the authors studied the collision channels that transfer magnetization from one element to another, using spin relaxation from different initial states in heteronuclear spinor gases and characterised the collision channel.
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