BEGIN:VCALENDAR VERSION:2.0 PRODID:IEEE vTools.Events//EN CALSCALE:GREGORIAN BEGIN:VTIMEZONE TZID:America/New_York BEGIN:DAYLIGHT DTSTART:20220313T030000 TZOFFSETFROM:-0500 TZOFFSETTO:-0400 RRULE:FREQ=YEARLY;BYDAY=2SU;BYMONTH=3 TZNAME:EDT END:DAYLIGHT BEGIN:STANDARD DTSTART:20221106T010000 TZOFFSETFROM:-0400 TZOFFSETTO:-0500 RRULE:FREQ=YEARLY;BYDAY=1SU;BYMONTH=11 TZNAME:EST END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTAMP:20221020T200107Z UID:148CEE39-24D0-4904-9146-F06F884A2181 DTSTART;TZID=America/New_York:20221013T190000 DTEND;TZID=America/New_York:20221013T200000 DESCRIPTION:Since the demonstration of the generalized laws of refraction f or metasurfaces[1] and the first high performance metalenses[2]\, metaopti cs has rapidly progressed from the laboratory to manufacturing\, propelled by the vision that the foundries that manufacture ICs will manufacture CM OS compatible flat optics using the same semiconductor technology based on deep-UV lithography.[3\,4] This will impact the consumer electronics mark et in areas such as smart phones and wearable displays for AR/VR. Metasurf aces are now on the market through its partnership with STMicroelectronics \, marking the introduction of this revolutionary optical technology in re al-world devices.[5] I will also present advances in cm scale achromatic R GB metalenses for VR by inverse design[6] and 10 cm metalenses for space o ptics consisting of 20 billion metatoms.[7] A compact and highly integrate d metasurface-based inverse designed mode multiplexer that takes three sin gle-mode fiber inputs and converts them into the first three linearly pola rized spatial modes of a few-mode fiber with high fidelity the C-band (153 0−1565 nm) of fiber optics will be presented.[8] I will conclude with th e report of hybrid silicon-organic electrooptic metasurface modulators tha t use Mie resonances for efficient electro-optic modulation at GHz speeds for free-space communications.[9]\n\n1. Nanfang Yu\, et al. Science\, 334\ , 333 (2011)\n\n2. Mohammadreza Khorasaninejad\, et al. Science\, 352\, 11 90 (2016)\n\n3. Federico Capasso\, Nanophotonics\, 7\, 953 (2018)\n\n4. Al an She et al.\, Optics Express\, 26\, 1573 (2018)\n\n5. https://newsroom.s t.com/media-center/press-item.html/t4458.html\; https://www.metalenz.com\n \n6. Zhaoyi Li et al. Nature Communications\, 13\, 2409 (2022)\n\n7. Joon- Suh Park et al. “All-Glass\, Mass-Producible\, Large-Diameter Metalens a t Visible Wavelength for 100 mm Aperture Optics and Beyond” CLEO 2022\n\ n8. Jaewon Oh et al. ACS Photonics 9\, 929 (2022)\n\n9. Ileana-Cristina Be nea-Chelmus et al. Nature Communications\, 13\, 3170 (2022)\n\nVirtual: ht tps://events.vtools.ieee.org/m/325292 LOCATION:Virtual: https://events.vtools.ieee.org/m/325292 ORGANIZER:keisukekojima@ieee.org SEQUENCE:6 SUMMARY:Zoom webinar: Advances in Flat Optics: From Metalenses to High-Volu me Manufacturing for Consumer Electronics and Communications by Prof. Fede rico Capasso (Harvard Univ.) URL;VALUE=URI:https://events.vtools.ieee.org/m/325292 X-ALT-DESC:Description: <br /><p>Since the demonstration of the generalized laws of refraction for metasurfaces[1] and the first high performance met alenses[2]\, metaoptics has rapidly progressed from the laboratory to manu facturing\, propelled by the vision that the foundries that manufacture IC s will manufacture CMOS compatible flat optics using the same semiconducto r technology based on deep-UV lithography.[3\,4] &nbsp\;This will impact t he consumer electronics market in areas such as smart phones and wearable displays for AR/VR.&nbsp\;&nbsp\;Metasurfaces are now on the market throug h its partnership with STMicroelectronics\, marking the introduction of th is revolutionary optical technology in real-world devices.[5] &nbsp\;I wil l also present advances in cm scale achromatic RGB metalenses for VR by in verse design[6] and 10 cm metalenses for space optics consisting of 20 &nb sp\;billion metatoms.[7] &nbsp\;A compact and highly integrated metasurfac e-based inverse designed mode multiplexer that takes three single-mode fib er inputs and converts them into the first three linearly polarized spatia l modes of a few-mode fiber with high fidelity the C-band (1530&minus\;156 5 nm) of fiber optics will be presented.[8] &nbsp\;I will conclude with th e report of &nbsp\;hybrid silicon-organic electrooptic metasurface modulat ors that use Mie resonances for efficient electro-optic modulation at GHz speeds for free-space communications.[9]</p>\n<p>1.&nbsp\;&nbsp\;Nanfang Y u\, et al.&nbsp\;&nbsp\;Science\, 334\, 333 (2011)</p>\n<p>2.&nbsp\;&nbsp\ ;Mohammadreza Khorasaninejad\, et al.&nbsp\;&nbsp\;Science\, 352\, 1190 (2 016)</p>\n<p>3.&nbsp\;&nbsp\;Federico Capasso\, Nanophotonics\, 7\, 953 (2 018)</p>\n<p>4.&nbsp\;&nbsp\;Alan She et al.\, Optics Express\, 26\, 1573 (2018)</p>\n<p>5.&nbsp\;&nbsp\;https://newsroom.st.com/media-center/press- item.html/t4458.html\; https://www.metalenz.com</p>\n<p>6.&nbsp\;&nbsp\;Zh aoyi Li et al. Nature Communications\, 13\, 2409 (2022)</p>\n<p>7.&nbsp\;& nbsp\;Joon-Suh Park et al. &ldquo\;All-Glass\, Mass-Producible\, Large-Dia meter Metalens at Visible Wavelength for 100 mm Aperture Optics and Beyond &rdquo\; CLEO 2022</p>\n<p>8.&nbsp\;&nbsp\;Jaewon Oh et al. ACS Photonics 9\, &nbsp\;929 (2022)</p>\n<p>9.&nbsp\;&nbsp\;Ileana-Cristina Benea-Chelmu s et al. Nature Communications\, 13\, 3170 (2022)</p> END:VEVENT END:VCALENDAR