P
Pauli Kehayias
Researcher at Sandia National Laboratories
Publications - 66
Citations - 3054
Pauli Kehayias is an academic researcher from Sandia National Laboratories. The author has contributed to research in topics: Diamond & Magnetic field. The author has an hindex of 25, co-authored 52 publications receiving 2292 citations. Previous affiliations of Pauli Kehayias include University of California, Berkeley & Tufts University.
Papers
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Journal ArticleDOI
The GENIE * Neutrino Monte Carlo Generator
C. Andreopoulos,A. Bell,D. Bhattacharya,F. Cavanna,J. Dobson,S. A. Dytman,H. R. Gallagher,P. Guzowski,R. Hatcher,Pauli Kehayias,A. Meregaglia,A. Meregaglia,D. Naples,G. F. Pearce,André Rubbia,M. Whalley,T. Yang +16 more
TL;DR: GENIE as mentioned in this paper is a large-scale software system, consisting of ∼ 120 000 lines of C++ code, featuring a modern object-oriented design and extensively validated physics content, which supports the full life-cycle of simulation and generator-related analysis tasks.
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Micrometer-scale magnetic imaging of geological samples using a quantum diamond microscope
David Glenn,Roger R. Fu,Pauli Kehayias,D. Le Sage,Eduardo A. Lima,Benjamin P. Weiss,Ronald L. Walsworth +6 more
TL;DR: The Planetary Major Equipment Program (NNX15AH72G) as discussed by the authors is a program of the U.S. National Aeronautics and Space Administration (NOAASA).
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Cavity-enhanced room-temperature magnetometry using absorption by nitrogen-vacancy centers in diamond.
Kasper Jensen,Nathan Leefer,Andrey Jarmola,Yannick Dumeige,Victor M. Acosta,Pauli Kehayias,Brian Patton,Brian Patton,Dmitry Budker +8 more
TL;DR: A cavity-enhanced room-temperature magnetic field sensor based on nitrogen-vacancy centers in diamond that detects magnetic resonance using absorption of light resonant with the 1042 nm spin-singlet transition is demonstrated.
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Ultralong Dephasing Times in Solid-State Spin Ensembles via Quantum Control
Erik Bauch,Connor Hart,Jennifer Schloss,Jennifer Schloss,Matthew Turner,John Barry,John Barry,Pauli Kehayias,Swati Singh,Ronald L. Walsworth +9 more
TL;DR: In this paper, the spin dephasing time in nitrogen-vacancy centers was reduced by more than an order of magnitude, greatly decreasing the time needed for magnetic field sensing and possibly opening up this quantum sensing technology to much broader applications.
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Detection of nanoscale electron spin resonance spectra demonstrated using nitrogen-vacancy centre probes in diamond.
Liam T. Hall,Pauli Kehayias,David Simpson,Andrey Jarmola,Alastair Stacey,Dmitry Budker,Lloyd C. L. Hollenberg +6 more
TL;DR: A method for measuring ESR spectra of nanoscale electronic environments by measuring the longitudinal relaxation time of a single-spin probe as it is systematically tuned into resonance with the target electronic system.