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201:), because atoms emit most of their light in a short burst. Asenjo-Garcia showed that superradiance can arise due to the collective behaviour of arrays of atoms. Her research showed that the problem could be simplified to two photons: if the first does not speed up the emission of the second, or the atoms are too far apart from one another, superradiance will not occur.
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explained that after atoms become excited (i.e. after they are irradiated) the intensity of the light pulse single atoms emit as they relax back down to ground state will start to decrease. At first, the intensity of light emitted by a group of atoms will increase (so-called
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A. Asenjo-Garcia; M. Moreno-Cardoner; A. Albrecht; H. J. Kimble; D. E. Chang (3 August 2017). "Exponential
Improvement in Photon Storage Fidelities Using Subradiance and "Selective Radiance" in Atomic Arrays".
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Xibo Shen; Ana Asenjo-Garcia; Qing Liu; Qiao Jiang; F. Javier GarcĂa de Abajo; Na Liu; Baoquan Ding (22 April 2013). "Three-dimensional plasmonic chiral tetramers assembled by DNA origami".
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Asenjo-Garcia is from a small city in Spain. She became interested in physics as a teenager, with a particular focus on astrophysics. She was an undergraduate student at the
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scholarship to pursue her doctoral research in plasmonic nanostructures, after which she was a postdoctoral researcher at
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to incorporate optical activity showing that the nonlinear optical signals scale with the number of twisted interfaces.
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Asenjo-Garcia developed 2D materials for nonlinear optics. These materials expand upon the concept of
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as a
Lenfest Faculty Fellow. She is part of the Columbia Centre for Programmable Quantum Materials.
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493:"Columbia to Continue Creating Programmable Quantum Materials | Columbia Quantum Initiative"
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Jonathan D Hood; Akihisa Goban; Ana Asenjo-Garcia; Mingwu Lu; Su-Peng Yu; Darrick E Chang;
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473:"Quantum many-body physics with atoms and photons" presented by Ana Asenjo-Garcia
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Proceedings of the
National Academy of Sciences of the United States of America
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423:"Theoretical Physicist Ana Asenjo-Garcia Named a 2021 Packard Fellow"
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569:"The Highest Awards in Physics, Broadcast, and Law Go to Columbians"
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InteracciĂłn de plasmones, luz y haces de electrones en la nanoescala
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program focused on the creation of programmable quantum materials.
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is a
Spanish quantum scientist who is a Professor of Physics at
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545:"Twistoptics: A new way to control optical nonlinearity"
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Neff, Ellen; Initiative, Columbia
University Quantum.
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16:Professor of physics
447:"Ana Asenjo-Garcia"
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