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DTSTAMP:20260418T002447Z
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DTSTART;TZID=America/Lima:20260414T200000
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DESCRIPTION:What if the antenna could be as integrated as the transistor? A
 s wireless systems push the boundaries of miniaturization\, speed\, and in
 tegration\, the concept of on-chip antennas is rapidly transforming from a
  niche curiosity to a cornerstone of next-generation RF\, microwave\, and 
 millimeter-wave technologies. This talk explores the intriguing world of o
 n-chip antennas—where electromagnetic radiation meets silicon real estat
 e. We delve into the fundamental challenges of antenna miniaturization\, s
 ubstrate losses\, and impedance matching\, and examine how innovative desi
 gn strategies are overcoming these barriers. From CMOS-compatible layouts 
 to metamaterial-inspired structures\, on-chip antennas are enabling seamle
 ss integration of wireless functionality directly into ICs. Why does this 
 matter? Because the future of high-speed communication\, radar sensing\, a
 nd chip-to-chip wireless interconnects depends on it. Whether it's for 5G/
 6G transceivers\, biomedical implants\, or terahertz imaging systems\, on-
 chip antennas are poised to unlock new possibilities across the RF\, micro
 wave\, and millimeter-wave spectrum. Join me as we walk through the milest
 ones of on-chip antenna development and ask: Can antennas truly become nat
 ive to silicon? And if so\, what new frontiers will that open?\n\nSpeaker(
 s): Arup Ray\n\nVirtual: https://events.vtools.ieee.org/m/550632
LOCATION:Virtual: https://events.vtools.ieee.org/m/550632
ORGANIZER:gabriel.palma@epn.edu.ec
SEQUENCE:23
SUMMARY:Tiny Antennas\, Big Impact: Challenges and Innovations in On-Chip A
 ntenna Design
URL;VALUE=URI:https://events.vtools.ieee.org/m/550632
X-ALT-DESC:Description: <br /><p><span data-olk-copy-source="MessageBody">W
 hat if the antenna could be as integrated as the transistor? As wireless s
 ystems push the boundaries of miniaturization\, speed\, and integration\, 
 the concept of on-chip antennas is rapidly transforming from a niche curio
 sity to a cornerstone of next-generation RF\, microwave\, and millimeter-w
 ave technologies. This talk explores the intriguing world of on-chip anten
 nas&mdash\;where electromagnetic radiation meets silicon real estate. We d
 elve into the fundamental challenges of antenna miniaturization\, substrat
 e losses\, and impedance matching\, and examine how innovative design stra
 tegies are overcoming these barriers. From CMOS-compatible layouts to meta
 material-inspired structures\, on-chip antennas are enabling seamless inte
 gration of wireless functionality directly into ICs. Why does this matter?
  Because the future of high-speed communication\, radar sensing\, and chip
 -to-chip wireless interconnects depends on it. Whether it's for 5G/6G tran
 sceivers\, biomedical implants\, or terahertz imaging systems\, on-chip an
 tennas are poised to unlock new possibilities across the RF\, microwave\, 
 and millimeter-wave spectrum. Join me as we walk through the milestones of
  on-chip antenna development and ask: Can antennas truly become native to 
 silicon? And if so\, what new frontiers will that open?</span></p>
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