BEGIN:VCALENDAR VERSION:2.0 PRODID:IEEE vTools.Events//EN CALSCALE:GREGORIAN BEGIN:VTIMEZONE TZID:US/Pacific BEGIN:DAYLIGHT DTSTART:20220313T030000 TZOFFSETFROM:-0800 TZOFFSETTO:-0700 RRULE:FREQ=YEARLY;BYDAY=2SU;BYMONTH=3 TZNAME:PDT END:DAYLIGHT BEGIN:STANDARD DTSTART:20221106T010000 TZOFFSETFROM:-0700 TZOFFSETTO:-0800 RRULE:FREQ=YEARLY;BYDAY=1SU;BYMONTH=11 TZNAME:PST END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTAMP:20220504T045842Z UID:E5724F30-5AD2-4126-B5A5-B8AE9AA95577 DTSTART;TZID=US/Pacific:20220503T120000 DTEND;TZID=US/Pacific:20220503T130000 DESCRIPTION:- The Foothill/Orange County Jt. Sections Nanotechnology Counci l Chapter invites you to attend this event hosted also by the IEEE Student Chapter at Cal Poly Pomona\n\nAbstract: Camera technology has improved dr amatically over the years. Nowadays almost everyone owns a mega-pixel CMOS camera (in their phone)\, which produces high definition images and is a fraction of the cost of the high-end cameras from just 10 years ago. Despi te the amazing capabilities of modern CMOS cameras\, they only work in the visible range of the spectrum. In other words\, these cameras cannot map images in the infrared range of the spectrum\, beyond the spectral range o f our eyes. The infrared range is important for a lot of imaging applicati ons\, because fundamental molecular resonances occur in this spectra windo w\, which enables the generation of images with ‘chemical’ contrast. I nfrared cameras exist\, but they are noisy\, low definition and extremely expensive. We have recently discovered a new method that turns a regular C MOS camera into an infrared imager. This optical method involves the simul taneous absorption of two photons by the silicon chip in the camera. This approach offers an attractive and affordable way to rapidly record infrare d chemical images at high definition\, enabling a new range of infrared im aging applications\, including remote sensing\, biomedical imaging and 3D visualization of printed circuits. In this presentation\, we will discuss this new technology in the context of recent trends in optical imaging and illuminate career opportunities in the field of optics.\n\nSpeaker(s): Dr . Eric Potma\, \n\nVirtual: https://events.vtools.ieee.org/m/310205 LOCATION:Virtual: https://events.vtools.ieee.org/m/310205 ORGANIZER:zhenyu@cpp.edu SEQUENCE:9 SUMMARY:How to turn a simple camera into an infrared imager URL;VALUE=URI:https://events.vtools.ieee.org/m/310205 X-ALT-DESC:Description: <br /><ul class="list-unstyled">\n<li>The Foothill/ Orange County Jt. Sections Nanotechnology Council Chapter invites you to a ttend this event hosted also by the IEEE Student Chapter at Cal Poly Pomon a</li>\n</ul>\n<p>Abstract: Camera technology has improved dramatically ov er the years. Nowadays almost everyone owns a mega-pixel CMOS camera (in t heir phone)\, which produces high definition images and is a fraction of t he cost of the &nbsp\;high-end cameras from just 10 years ago. Despite the amazing capabilities of modern CMOS cameras\, they only work in the visib le range of the spectrum. In other words\, these cameras cannot map images in the infrared range of the spectrum\, beyond the spectral range of our eyes. The infrared range is important for a lot of imaging applications\, because fundamental molecular resonances occur in this spectra window\, wh ich enables the generation of images with &lsquo\;chemical&rsquo\; contras t. Infrared cameras exist\, but they are noisy\, low definition and extrem ely expensive. We have recently discovered a new method that turns a regul ar CMOS camera into an infrared imager. This optical method involves the s imultaneous absorption of two photons by the silicon chip in the camera. T his approach offers an attractive and affordable way to rapidly record inf rared chemical images at high definition\, enabling a new range of infrare d imaging applications\, including remote sensing\, biomedical imaging and 3D visualization of printed circuits. In this presentation\, we will disc uss this new technology in the context of recent trends in optical imaging and illuminate career opportunities in the field of optics.</p> END:VEVENT END:VCALENDAR