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DTSTAMP:20221208T034119Z
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DESCRIPTION:Semiconductor Quantum Dots\, why are they so quantum? Genesis\,
  prospects & challenges\n\nFrédéric Grillot\, Professor\, Télécom Pari
 s (France) & the University of New-Mexico (USA)\n\nAbout the Talk\n\nSemic
 onductor nanostructures with low dimensionality like quantum dots are one 
 the best attractive solutions for achieving high performance photonic devi
 ces. When one or more spatial dimensions of the nanocrystal approach the d
 e Broglie wavelength\, nanoscale size effects create a spatial quantizatio
 n of carriers along with various other phenomena based on quantum mechanic
 s. Thanks to their compactness\, great thermal stability and large reflect
 ion immunity\, semiconductor quantum dot lasers are very promising candida
 tes for low energy consumption and isolation free photonic integrated circ
 uits. When directly grown on silicon\, they even show a four-wave mixing e
 fficiency much superior compared to the conventional quantum well devices.
  This remarkable result paves the way for achieving high-efficiency freque
 ncy comb generation from a photonic chip. Quantum dot lasers also exhibit 
 a strong potential for applications in optical routing and optical atomic 
 clock.Last but not least\, a quantum dot single photon source is a buildin
 g block in secure communications\, and therefore can be applied to quantum
  information processing for applications such as quantum computers. This l
 ecture will review the recent findings and prospects on nanostructure base
 d light emitters made with quantum-dot technology. Many applications rangi
 ng from silicon-based integrated solutions to quantum information systems 
 will be presented. In addition\, the lecture will highlight the importance
  of nanotechnologies on industry and society especially for shaping the fu
 ture information and communication society.\n\nAbout the Speaker\n\nhttps:
 //perso.telecom-paristech.fr/grillot/moi.png\n\nFrédéric Grillot is curr
 ently a Full Professor at Télécom Paris (France) and a Research Professo
 r at the University of New-Mexico (USA). His research interests include\, 
 but are not limited to\, advanced quantum confined devices using III-V com
 pound semiconductors\, quantum dots quantum dashes\, light-emitters based 
 on intersubband transitions\, non-classical light\, nonlinear dynamics and
  optical chaos in semiconductor lasers systems as well as microwave and si
 licon photonics applications.\n\nProfessor Grillot has made outstanding te
 chnical contributions in photonics and optical communications. He has inte
 nsively contributed to the development of quantum dot devices enabling the
 ir utilization as future active devices with superior performance. In part
 icular\, his recent achievements on epitaxial quantum dot lasers on silico
 n are crucial for the development of isolation-free integrated technologie
 s. Among his major achievements\, he also reported the first private optic
 al communication using mid-infrared chaotic light\, giant pulses emission 
 in quantum cascade devices as well as multigigabits operation in the therm
 al atmospheric window with unipolar quantum optoelectronics. Overall\, his
  research is a strong input to the advancement of science and to the emerg
 ing practical applications in computer and quantum technologies\, as well 
 as in more traditional areas such as optical communications.\n\nProfessor 
 Grillot strongly contributes to promote and support the development of the
  general optics community. He has served diligently and successfully Optic
 a in particular as an Associate Editor of Optics Express\, now as a Deputy
  Editor since September 2022. As of now\, he has published more than 130 j
 ournal articles\, 3 book chapters\, and delivered many invited talks in ma
 jor international conferences and workshops. Frédéric Grillot is also a 
 Fellow Member of the SPIE as well as a Senior Member of Optica and the IEE
 E Photonics Society. In 2022\, he received the IEEE Photonics Society Dist
 inguished Lecturer Award which honors excellent speakers who have made tec
 hnical\, industrial or entrepreneurial contributions to the field of photo
 nics.\n\nSponsors: IEEE Princeton/Central Jersey Section\n\nIEEE Photonics
  Society PCJ Chapter\n\nIEEE Region 1\n\nAll are welcome! You do not have 
 to be a member of the IEEE to attend. The registration is free and require
 d.\n\nRegistration Required:\nhttps://events.vtools.ieee.org/m/324300\n\nT
 ime: 2~3PM (Eastern Time)\, Wednesday Dec 7th 2022\n\nZoom: https://future
 wei.zoom.us/j/6135444997\n\nZoom ID: 613 544 4997\n\nCo-sponsored by: IEEE
  Princeton/Central Jersey Section\, IEEE Photonics Society PCJ Chapter and
  Region 1\n\nVirtual: https://events.vtools.ieee.org/m/324300
LOCATION:Virtual: https://events.vtools.ieee.org/m/324300
ORGANIZER:yuanqiu.luo@futurewei.com
SEQUENCE:28
SUMMARY:IEEE PCJS 75th Anniversary Zoom Webinar Series\, Photonics Chapter\
 , Semiconductor Quantum Dots
URL;VALUE=URI:https://events.vtools.ieee.org/m/324300
X-ALT-DESC:Description: <br /><p style="text-align: center\;"><span style="
 font-family: Calibri\, sans-serif\; font-size: 18pt\;"><strong>Semiconduct
 or Quantum Dots\, why are they so quantum? Genesis\, prospects &amp\; chal
 lenges</strong></span></p>\n<p><strong>&nbsp\; &nbsp\; &nbsp\; &nbsp\; &nb
 sp\; &nbsp\; &nbsp\; &nbsp\; &nbsp\; </strong></p>\n<p style="text-align: 
 center\;"><strong>&nbsp\; &nbsp\; <span style="font-family: arial\, helvet
 ica\, sans-serif\;"><span style="font-size: 14pt\;">Fr&eacute\;d&eacute\;r
 ic Grillot\, Professor\, T&eacute\;l&eacute\;com Paris (France) &amp\; the
  University of New-Mexico (USA)</span></span></strong></p>\n<p>&nbsp\;</p>
 \n<p><span style="font-family: arial\, helvetica\, sans-serif\; font-size:
  14pt\;"><strong>About the Talk</strong></span></p>\n<p style="text-align:
  justify\;"><span style="font-family: arial\, helvetica\, sans-serif\; fon
 t-size: 14pt\;">Semiconductor nanostructures with low dimensionality like 
 quantum dots are one the best attractive solutions for achieving high perf
 ormance photonic devices. When one or more spatial dimensions of the nanoc
 rystal approach the de Broglie wavelength\, nanoscale size effects create 
 a spatial quantization of carriers along with various other phenomena base
 d on quantum mechanics. Thanks to their compactness\, great thermal stabil
 ity and large reflection immunity\, semiconductor quantum dot lasers are v
 ery promising candidates for low energy consumption and isolation free pho
 tonic integrated circuits. When directly grown on silicon\, they even show
  a four-wave mixing efficiency much superior compared to the conventional 
 quantum well devices. This remarkable result paves the way for achieving h
 igh-efficiency frequency comb generation from a photonic chip. Quantum dot
  lasers also exhibit a strong potential for applications in optical routin
 g and optical atomic clock.Last but not least\, a quantum dot single photo
 n source is a building block in secure communications\, and therefore can 
 be applied to quantum information processing for applications such as quan
 tum computers. This lecture will review the recent findings and prospects 
 on nanostructure based light emitters made with quantum-dot technology. Ma
 ny applications ranging from silicon-based integrated solutions to quantum
  information systems will be presented. In addition\, the lecture will hig
 hlight the importance of nanotechnologies on industry and society especial
 ly for shaping the future information and communication society.</span></p
 >\n<p>&nbsp\;</p>\n<p><span style="font-family: arial\, helvetica\, sans-s
 erif\; font-size: 14pt\;"><strong>About the Speaker</strong></span></p>\n<
 p style="text-align: justify\;"><span style="font-family: arial\, helvetic
 a\, sans-serif\;"><a href="https://perso.telecom-paristech.fr/grillot/moi.
 png"><img style="float: left\; height: 157px\; margin: 20px\; width: 157px
 \;" src="https://perso.telecom-paristech.fr/grillot/moi.png" alt="" /></a>
 </span></p>\n<p style="text-align: justify\;"><span style="font-family: ar
 ial\, helvetica\, sans-serif\; font-size: 14pt\;">Fr&eacute\;d&eacute\;ric
  Grillot is currently a Full Professor at T&eacute\;l&eacute\;com Paris (F
 rance) and a Research Professor at the University of New-Mexico (USA). His
  research interests include\, but are not limited to\, advanced quantum&nb
 sp\;confined devices using III-V compound semiconductors\, quantum dots qu
 antum dashes\, light-emitters based on intersubband transitions\, non-clas
 sical light\, nonlinear dynamics and optical chaos in semiconductor&nbsp\;
 lasers systems as well as microwave and silicon photonics applications.</s
 pan></p>\n<p style="text-align: justify\;"><span style="font-family: arial
 \, helvetica\, sans-serif\; font-size: 14pt\;">Professor Grillot has made 
 outstanding technical contributions in photonics and optical communication
 s. He has intensively contributed to the development of quantum dot device
 s enabling their utilization as future&nbsp\;active devices with superior 
 performance. In particular\, his recent achievements on epitaxial quantum 
 dot lasers on silicon are crucial for the development of isolation-free in
 tegrated technologies. Among his major&nbsp\;achievements\, he also report
 ed the first private optical communication using mid-infrared chaotic ligh
 t\, giant pulses emission in quantum cascade devices as well as multigigab
 its operation in the thermal&nbsp\;atmospheric window with unipolar quantu
 m optoelectronics. Overall\, his research is a strong input to the advance
 ment of science and to the emerging practical applications in computer and
  quantum technologies\,&nbsp\;as well as in more traditional areas such as
  optical communications.</span></p>\n<p style="text-align: justify\;"><spa
 n style="font-family: arial\, helvetica\, sans-serif\; font-size: 14pt\;">
 Professor Grillot strongly contributes to promote and support the developm
 ent of the general optics community. He has served diligently and successf
 ully Optica in particular as an Associate Editor of Optics Express\,&nbsp\
 ;now as a Deputy Editor since September 2022. As of now\, he has published
  more than 130 journal articles\, 3 book chapters\, and delivered many inv
 ited talks in major international conferences and workshops.&nbsp\;Fr&eacu
 te\;d&eacute\;ric Grillot is also a Fellow Member of the SPIE as well as a
  Senior Member of Optica and the IEEE Photonics Society. In 2022\, he rece
 ived the IEEE Photonics Society Distinguished Lecturer Award which honors&
 nbsp\;excellent speakers who have made technical\, industrial or entrepren
 eurial contributions to the field of photonics.</span></p>\n<p>&nbsp\;</p>
 \n<p><span style="font-family: arial\, helvetica\, sans-serif\; font-size:
  14pt\;"><strong>Sponsors:</strong>&nbsp\;&nbsp\;IEEE Princeton/Central Je
 rsey Section</span></p>\n<p><span style="font-family: arial\, helvetica\, 
 sans-serif\; font-size: 14pt\;">&nbsp\;&nbsp\;&nbsp\;&nbsp\;&nbsp\;&nbsp\;
 &nbsp\;&nbsp\;&nbsp\;&nbsp\;&nbsp\;&nbsp\;&nbsp\;&nbsp\;&nbsp\;&nbsp\;&nbs
 p\;&nbsp\; IEEE Photonics Society PCJ Chapter</span></p>\n<p><span style="
 font-family: arial\, helvetica\, sans-serif\; font-size: 14pt\;">&nbsp\; &
 nbsp\; &nbsp\; &nbsp\; &nbsp\; &nbsp\; &nbsp\; &nbsp\; &nbsp\; &nbsp\;IEEE
  Region 1</span></p>\n<p><span style="font-family: arial\, helvetica\, san
 s-serif\; font-size: 14pt\;">All are welcome!&nbsp\;You do not have to be 
 a member of the IEEE to attend. The registration is free and required.</sp
 an></p>\n<p><span style="font-family: arial\, helvetica\, sans-serif\; fon
 t-size: 14pt\;"><strong>Registration Required:<br /></strong><a href="http
 s://events.vtools.ieee.org/m/324300">https://events.vtools.ieee.org/m/3243
 00</a></span></p>\n<p><span style="font-family: arial\, helvetica\, sans-s
 erif\; font-size: 14pt\;"><strong>Time</strong>:&nbsp\;&nbsp\;2~3PM (Easte
 rn Time)\, Wednesday Dec 7<sup>th</sup>&nbsp\;2022</span></p>\n<p><span st
 yle="font-family: arial\, helvetica\, sans-serif\; font-size: 14pt\;"><str
 ong>Zoom:</strong>&nbsp\;<a href="https://futurewei.zoom.us/j/6135444997">
 https://futurewei.zoom.us/j/6135444997</a></span></p>\n<p><span style="fon
 t-family: arial\, helvetica\, sans-serif\; font-size: 14pt\;"><strong>Zoom
  ID:</strong>&nbsp\;613 544 4997</span></p>\n<p>&nbsp\;</p>
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