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DTSTART:20210314T030000
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DTSTAMP:20210625T220128Z
UID:A82D3F78-44AE-402B-9B93-997CFD804E50
DTSTART;TZID=America/Denver:20210625T110000
DTEND;TZID=America/Denver:20210625T120000
DESCRIPTION:Integrating spin-wave and superconducting technologies is a pro
 mising method\nfor creating novel hybrid devices for future information pr
 ocessing technologies\nto store\, manipulate\, or convert data in both cla
 ssical and quantum regimes.\nSuch hybrid devices can also exhibit interest
 ing properties such as new resonance\nspectra features induced by the inte
 rchange between superconducting microwave\nlines and ferromagnetic resonan
 ce dynamics of yttrium iron garnet (Y3Fe5O12\, YIG)\nfilms. We will report
  on a series of microwave experiments with YIG films.\nYIG samples were st
 udied from the classical to the quantum regime where\nthe thermal energy i
 s less than one resonant microwave quanta\, i.e. at\ntemperatures below 1 
 K. Limiting effects of the intrinsic magnon linewidth\,\nrepresenting the 
 coherence time of a quantum memory\, at milliKelvin temperatures\nare repo
 rted. By applying two tones to the cavity and magnon the steering between\
 nlevel repulsion and attraction has been demonstrated\, with a broad tunab
 ility\nof two-port driven cavity magnon-polaritons. Fast manipulations of 
 the different\nCMP modes with independent but coherent pulses to the cavit
 y and magnon system\nhave been realized. Moving from the cavity to thin-fi
 lm superconducting resonators\,\nthe strong magnon-photon coupling with ch
 ip-integrated YIG in the zero-temperature\nlimit has been achieved\, a cru
 cial step toward fabrication of functional hybrid\nquantum devices that ad
 vantage from spin-wave and superconducting components.\n\nCo-sponsored by:
  UCCS\n\nSpeaker(s): Martin Weides\, \n\nRoom: A204\, Bldg: Osborne Center
  for Science and Engineering\, 1420 Austin Bluffs Pkwy\, Colorado Springs\
 , Colorado\, United States\, 80918\, Virtual: https://events.vtools.ieee.o
 rg/m/273798
LOCATION:Room: A204\, Bldg: Osborne Center for Science and Engineering\, 14
 20 Austin Bluffs Pkwy\, Colorado Springs\, Colorado\, United States\, 8091
 8\, Virtual: https://events.vtools.ieee.org/m/273798
ORGANIZER:dbozhko@uccs.edu
SEQUENCE:6
SUMMARY:Quantum-inspired cavity-magnon polaritons experiments: From coheren
 ce at ultra-low temperatures over multi-tone manipulation to time-resolved
  control
URL;VALUE=URI:https://events.vtools.ieee.org/m/273798
X-ALT-DESC:Description: <br /><pre class="moz-quote-pre">Integrating spin-w
 ave and superconducting technologies is a promising method<br />for creati
 ng novel hybrid devices for future information processing technologies<br 
 />to store\, manipulate\, or convert data in both classical and quantum re
 gimes.<br />Such hybrid devices can also exhibit interesting properties su
 ch as new resonance<br />spectra features induced by the interchange betwe
 en superconducting microwave<br />lines and ferromagnetic resonance dynami
 cs of yttrium iron garnet (Y3Fe5O12\, YIG)<br />films. We will report on a
  series of microwave experiments with YIG films.<br />YIG samples were stu
 died from the classical to the quantum regime where<br />the thermal energ
 y is less than one resonant microwave quanta\, i.e. at <br />temperatures 
 below 1 K. Limiting effects of the intrinsic magnon linewidth\,<br />repre
 senting the coherence time of a quantum memory\, at milliKelvin temperatur
 es<br />are reported. By applying two tones to the cavity and magnon the s
 teering between<br />level repulsion and attraction has been demonstrated\
 , with a broad tunability<br />of two-port driven cavity magnon-polaritons
 . Fast manipulations of the different<br />CMP modes with independent but 
 coherent pulses to the cavity and magnon system<br />have been realized. M
 oving from the cavity to thin-film superconducting resonators\,<br />the s
 trong magnon-photon coupling with chip-integrated YIG in the zero-temperat
 ure<br />limit has been achieved\, a crucial step toward fabrication of fu
 nctional hybrid<br />quantum devices that advantage from spin-wave and sup
 erconducting components.</pre>
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