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Ke Sun

Researcher at California Institute of Technology

Publications -  115
Citations -  5830

Ke Sun is an academic researcher from California Institute of Technology. The author has contributed to research in topics: LIGO & Water splitting. The author has an hindex of 42, co-authored 101 publications receiving 5053 citations. Previous affiliations of Ke Sun include University of California, San Diego & Baidu.

Papers
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Enabling silicon for solar-fuel production

Ke Sun, +6 more
- 01 Aug 2014 - 
TL;DR: This paper presents a probabilistic analysis of the response of the H2O/O2 mixture in a mixture of low and high-performance liquid chromatography systems to achieve uniform viscosity and high efficiency.
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A monolithically integrated, intrinsically safe, 10% efficient, solar-driven water-splitting system based on active, stable earth-abundant electrocatalysts in conjunction with tandem III–V light absorbers protected by amorphous TiO2 films

Erik Verlage, +7 more
- 28 Oct 2015 - 
TL;DR: In this paper, a monolithically integrated device consisting of a tandem-junction GaAs/InGaP photoanode coated by an amorphous TiO2 stabilization layer was used to effect unassisted, solar-driven water splitting in 1.0 M KOH(aq).
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Searches for gravitational waves from known pulsars with science run 5 LIGO data

B. P. Abbott, +705 more
- 24 Mar 2010 - 
TL;DR: In this article, an updated search for gravitational waves from 116 known millisecond and young pulsars using data from the fifth science run of the LIGO detectors was presented, where ephemerides overlapping the run period were obtained using radio and X-ray observations.
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Search for gravitational waves from binary inspirals in S3 and S4 LIGO data

B. P. Abbott, +463 more
- 07 Mar 2008 - 
TL;DR: In this paper, a search for gravitational waves from the coalescence of compact binary systems during the third and fourth LIGO science runs was reported, which focused on gravitational waves generated during the inspiral phase of the binary evolution.
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Observation of a kilogram-scale oscillator near its quantum ground state

B. P. Abbott, +454 more
- 16 Jul 2009 - 
TL;DR: In this paper, the resonant frequency of a 2.7 kg pendulum mode was dynamically shifted to lie within this optimal band, where its effective temperature falls as low as 1.4 μK and its occupation number reaches about 200 quanta.