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X-WR-CALNAME;VALUE=TEXT:Peter Drummond: Joint Quantum Sciences Seminar
PRODID:-//Harvard events data//EN
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UID:event_1328728_0
SUMMARY:Peter Drummond: Joint Quantum Sciences Seminar
DESCRIPTION:<span><span style="sans-serif"><span style="caret-color:#000000"><span style="color:#000000"><span style="font-style:normal"><span style="font-variant-caps:normal"><span style="font-weight:normal"><span style="letter-spacing:normal"><span style="orphans:auto"><span style="text-transform:none"><span style="white-space:normal"><span style="widows:auto"><span style="word-spacing:0px"><span style="-webkit-text-size-adjust:auto"><span style="text-decoration:none"><u><span>Prof. Peter D Drummond, Swinburne University of Technology</span></u></span></span></span></span></span></span></span></span></span></span></span></span></span></span></span><p style="margin:0in0in0.0001pt;text-align:start;-webkit-text-stroke-width:0px">	<span><span style="sans-serif"><span style="caret-color:#000000"><span style="color:#000000"><span style="font-style:normal"><span style="font-variant-caps:normal"><span style="font-weight:normal"><span style="letter-spacing:normal"><span style="orphans:auto"><span style="text-transform:none"><span style="white-space:normal"><span style="widows:auto"><span style="word-spacing:0px"><span style="-webkit-text-size-adjust:auto"><span style="text-decoration:none"><em>“Simulations of many-body systems: Furry and Coleman revisited”</em></span></span></span></span></span></span></span></span></span></span></span></span></span></span></span></p><p style="margin:0in0in0.0001pt;text-align:start;-webkit-text-stroke-width:0px">	<span><span style="sans-serif"><span style="caret-color:#000000"><span style="color:#000000"><span style="font-style:normal"><span style="font-variant-caps:normal"><span style="font-weight:normal"><span style="letter-spacing:normal"><span style="orphans:auto"><span style="text-transform:none"><span style="white-space:normal"><span style="widows:auto"><span style="word-spacing:0px"><span style="-webkit-text-size-adjust:auto"><span style="text-decoration:none"><span>Wendell Furry [1] and Sydney Coleman [5] were two of Harvard's most original quantum theorists. What can modern technology contribute to their work? Experimentally tested simulations of optomechanics[4] and atom interferometers [3], with thermal noise and losses, will be used to analyse proposals for testing Furry's nonlocal decoherence, and Coleman's QFT tunnelling to the true vacuum. Both entanglement decoherence and massive Schrodinger cats are testable [4] through an optomechanical memory, simulated using the positive-P representation. Coleman's vacuum tunneling idea will be applied to construct a proposal for a laboratory model of the quantum fluctuations in the 'Big Bang', using a coupled BEC experiment simulated with a Wigner representation [6].</span></span></span></span></span></span></span></span></span></span></span></span></span></span></span></span></p><p style="margin:0in0in0.0001pt;text-align:start;-webkit-text-stroke-width:0px">	<span><span style="sans-serif"><span style="caret-color:#000000"><span style="color:#000000"><span style="font-style:normal"><span style="font-variant-caps:normal"><span style="font-weight:normal"><span style="letter-spacing:normal"><span style="orphans:auto"><span style="text-transform:none"><span style="white-space:normal"><span style="widows:auto"><span style="word-spacing:0px"><span style="-webkit-text-size-adjust:auto"><span style="text-decoration:none"><em>[1] W. H. Furry, Phys. Rev. 49, 393 (1936). [2] A. Einstein, B. Podolsky, and N. Rosen, Phys. Rev. 47, 777 (1935). [3] M. Egorov et. al, Phys. Rev.</em></span></span></span></span></span></span></span></span></span></span></span></span></span></span></span></p><p style="margin:0in0in0.0001pt;text-align:start;-webkit-text-stroke-width:0px">	<span><span style="sans-serif"><span style="caret-color:#000000"><span style="color:#000000"><span style="font-style:normal"><span style="font-variant-caps:normal"><span style="font-weight:normal"><span style="letter-spacing:normal"><span style="orphans:auto"><span style="text-transform:none"><span style="white-space:normal"><span style="widows:auto"><span style="word-spacing:0px"><span style="-webkit-text-size-adjust:auto"><span style="text-decoration:none"><em>A 84, 021605 (2011). [4] S. Kiesewetter, R. Y. Teh, P. Drummond and M. Reid, Phys. Rev. Lett. 119, 023601 (2017). [5] S. Coleman, Phys. Rev. D 15, 2929</em></span></span></span></span></span></span></span></span></span></span></span></span></span></span></span></p><p style="margin:0in0in0.0001pt;text-align:start;-webkit-text-stroke-width:0px">	<span><span style="sans-serif"><span style="caret-color:#000000"><span style="color:#000000"><span style="font-style:normal"><span style="font-variant-caps:normal"><span style="font-weight:normal"><span style="letter-spacing:normal"><span style="orphans:auto"><span style="text-transform:none"><span style="white-space:normal"><span style="widows:auto"><span style="word-spacing:0px"><span style="-webkit-text-size-adjust:auto"><span style="text-decoration:none"><em>(1977). [6] O. Fialko et. al., J. Phys. B 50 024003 (2017).</em> </span></span></span></span></span></span></span></span></span></span></span></span></span></span></span></p>
LOCATION:Jefferson 250, 17 Oxford Street, Cambridge MA
STATUS:CONFIRMED
DTSTART:20180926T200000Z
DTEND:20180926T220000Z
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