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TZID:Hongkong
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DTSTART:19791021T023000
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BEGIN:VEVENT
DTSTAMP:20201225T103634Z
UID:E8E9EFD3-954A-401F-ABED-5E221217F103
DTSTART;TZID=Hongkong:20201006T100000
DTEND;TZID=Hongkong:20201006T110000
DESCRIPTION:IEEE MTT Chapter Distinguished Microwave Lecturer Talk\n\nChip-
 Scale Wave-Matter Interactions at RF-to-Light Frequencies: Circuits\, Syst
 ems and Applications\n\nProf. Ruonan Han\n\nDepartment of Electrical Engin
 eering and Computer Science\,\n\nMassachusetts Institute of Technology (MI
 T)\, USA\n\nDate: October 6\, 2020\n\nTime: 10:00 am to 11:00 am (Hong Kon
 g\, UTC+8:00)\n\nVenue: Online\n\nRegistration link: https://events.vtools
 .ieee.org/event/register/237254\n\nAbstract\n\nTraditional electromagnetic
  (EM) spectral sensors using integrated circuit technologies (e.g. automot
 ive radars\, security imagers\, cameras\, etc.) are normally based on wave
  scattering or absorption by macroscopic objects at remote distance\; the 
 operations are also not specific in wave frequencies. In the past couple o
 f years\, a new paradigm of chip-scale EM spectral sensing emerges with fe
 atures complementary to the above: they utilize various modalities of inte
 ractions between EM waves with high-precision frequency control and micros
 copic particles (molecules\, atoms\, etc.) in close proximity to the chip.
  This progress is enabled by the recent advances of silicon devices and pr
 ocesses\, especially the increase of circuit operation frequencies into th
 e terahertz regime. Chip-scale sensing and metrology systems with new capa
 bilities\, higher performance and unprecedented affordability now become p
 ossible. Examples include THz gas spectroscopy sensors\, on-chip “atomic
 -clock-grade” frequency references\, room-temperature CMOS-quantum magne
 tometers\, etc. This talk will present the basic physics of a few types of
  wave-matter interactions\, key enabling technologies\, as well as the des
 igns and prototypes of chip systems. We will also discuss their potential 
 applications in bio-chemical analysis\, wireless networks\, PNT (positioni
 ng\, navigation & timing)\, security and so on.\n\nCo-sponsored by: Depart
 ment of Electrical Engineering\, City University of Hong Kong & State Key 
 Laboratory of Terahertz and Millimeter Waves (City University of Hong Kong
 ))\n\nSpeaker(s): Prof. Ruonan Han\, \n\nHong Kong\, Hong Kong\, Hong Kong
 \, Virtual: https://events.vtools.ieee.org/m/239814
LOCATION:Hong Kong\, Hong Kong\, Hong Kong\, Virtual: https://events.vtools
 .ieee.org/m/239814
ORGANIZER:kfaichan@cityu.edu.hk
SEQUENCE:5
SUMMARY:IEEE MTT Chapter Distinguished Microwave Lecturer Talk: Chip-Scale 
 Wave-Matter Interactions at RF-to-Light Frequencies: Circuits\, Systems an
 d Applications
URL;VALUE=URI:https://events.vtools.ieee.org/m/239814
X-ALT-DESC:Description: <br /><p><span style="font-size: 14pt\;"><strong><s
 pan style="color: #3366ff\;">IEEE MTT Chapter Distinguished Microwave Lect
 urer Talk</span></strong></span></p>\n<p style="color: #000000\; font-fami
 ly: Verdana\,Arial\,Helvetica\,sans-serif\; font-size: 14px\; font-style: 
 normal\; font-variant: normal\; font-weight: 400\; letter-spacing: normal\
 ; orphans: 2\; text-align: left\; text-decoration: none\; text-indent: 0px
 \; text-transform: none\; -webkit-text-stroke-width: 0px\; white-space: no
 rmal\; word-spacing: 0px\;"><span style="font-size: 18pt\;"><strong>Chip-S
 cale Wave-Matter Interactions at RF-to-Light Frequencies: Circuits\, Syste
 ms and Applications</strong></span></p>\n<p style="color: #000000\; font-f
 amily: Verdana\,Arial\,Helvetica\,sans-serif\; font-size: 14px\; font-styl
 e: normal\; font-variant: normal\; font-weight: 400\; letter-spacing: norm
 al\; orphans: 2\; text-align: left\; text-decoration: none\; text-indent: 
 0px\; text-transform: none\; -webkit-text-stroke-width: 0px\; white-space:
  normal\; word-spacing: 0px\;">&nbsp\;</p>\n<p style="color: #000000\; fon
 t-family: Verdana\,Arial\,Helvetica\,sans-serif\; font-size: 14px\; font-s
 tyle: normal\; font-variant: normal\; font-weight: 400\; letter-spacing: n
 ormal\; orphans: 2\; text-align: left\; text-decoration: none\; text-inden
 t: 0px\; text-transform: none\; -webkit-text-stroke-width: 0px\; white-spa
 ce: normal\; word-spacing: 0px\;"><span style="font-size: 14pt\;">Prof. Ru
 onan Han</span></p>\n<p style="color: #000000\; font-family: Verdana\,Aria
 l\,Helvetica\,sans-serif\; font-size: 14px\; font-style: normal\; font-var
 iant: normal\; font-weight: 400\; letter-spacing: normal\; orphans: 2\; te
 xt-align: left\; text-decoration: none\; text-indent: 0px\; text-transform
 : none\; -webkit-text-stroke-width: 0px\; white-space: normal\; word-spaci
 ng: 0px\;"><span style="font-size: 14pt\;">Department of Electrical Engine
 ering and Computer Science\,</span></p>\n<p style="color: #000000\; font-f
 amily: Verdana\,Arial\,Helvetica\,sans-serif\; font-size: 14px\; font-styl
 e: normal\; font-variant: normal\; font-weight: 400\; letter-spacing: norm
 al\; orphans: 2\; text-align: left\; text-decoration: none\; text-indent: 
 0px\; text-transform: none\; -webkit-text-stroke-width: 0px\; white-space:
  normal\; word-spacing: 0px\;"><span style="font-size: 14pt\;">Massachuset
 ts Institute of Technology (MIT)\, USA</span></p>\n<p style="color: #00000
 0\; font-family: Verdana\,Arial\,Helvetica\,sans-serif\; font-size: 14px\;
  font-style: normal\; font-variant: normal\; font-weight: 400\; letter-spa
 cing: normal\; orphans: 2\; text-align: left\; text-decoration: none\; tex
 t-indent: 0px\; text-transform: none\; -webkit-text-stroke-width: 0px\; wh
 ite-space: normal\; word-spacing: 0px\;">&nbsp\;</p>\n<p><span style="font
 -size: 12pt\;">Date: October 6\, 2020</span></p>\n<p><span style="font-siz
 e: 12pt\;">Time: 10:00 am to 11:00 am (Hong Kong\, UTC+8:00)<br /></span><
 /p>\n<p><span style="font-size: 12pt\;">Venue: Online</span></p>\n<p><span
  style="font-size: 12pt\;">Registration link: <a href="https://events.vtoo
 ls.ieee.org/event/register/237254">https://events.vtools.ieee.org/event/re
 gister/237254</a><br /></span></p>\n<p>&nbsp\;</p>\n<p><span style="font-s
 ize: 12pt\;"><strong>Abstract</strong></span></p>\n<p>Traditional electrom
 agnetic (EM) spectral sensors using integrated circuit technologies (e.g. 
 automotive radars\, security imagers\, cameras\, etc.) are normally based 
 on wave scattering or absorption by macroscopic objects at remote distance
 \; the operations are also not specific in wave frequencies. In the past c
 ouple of years\, a new paradigm of chip-scale EM spectral sensing emerges 
 with features complementary to the above: they utilize various modalities 
 of interactions between EM waves with high-precision frequency control and
  microscopic particles (molecules\, atoms\, etc.) in close proximity to th
 e chip. This progress is enabled by the recent advances of silicon devices
  and processes\, especially the increase of circuit operation frequencies 
 into the terahertz regime. Chip-scale sensing and metrology systems with n
 ew capabilities\, higher performance and unprecedented affordability now b
 ecome possible. Examples include THz gas spectroscopy sensors\, on-chip &l
 dquo\;atomic-clock-grade&rdquo\; frequency references\, room-temperature C
 MOS-quantum magnetometers\, etc. This talk will present the basic physics 
 of a few types of wave-matter interactions\, key enabling technologies\, a
 s well as the designs and prototypes of chip systems. We will also discuss
  their potential applications in bio-chemical analysis\, wireless networks
 \, PNT (positioning\, navigation &amp\; timing)\, security and so on.</p>
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