BEGIN:VCALENDAR
VERSION:2.0
PRODID:-//The Advanced Science Research Center - ECPv6.15.20//NONSGML v1.0//EN
CALSCALE:GREGORIAN
METHOD:PUBLISH
X-WR-CALNAME:The Advanced Science Research Center
X-ORIGINAL-URL:https://asrc.gc.cuny.edu
X-WR-CALDESC:Events for The Advanced Science Research Center
REFRESH-INTERVAL;VALUE=DURATION:PT1H
X-Robots-Tag:noindex
X-PUBLISHED-TTL:PT1H
BEGIN:VTIMEZONE
TZID:America/New_York
BEGIN:DAYLIGHT
TZOFFSETFROM:-0500
TZOFFSETTO:-0400
TZNAME:EDT
DTSTART:20210314T070000
END:DAYLIGHT
BEGIN:STANDARD
TZOFFSETFROM:-0400
TZOFFSETTO:-0500
TZNAME:EST
DTSTART:20211107T060000
END:STANDARD
BEGIN:DAYLIGHT
TZOFFSETFROM:-0500
TZOFFSETTO:-0400
TZNAME:EDT
DTSTART:20220313T070000
END:DAYLIGHT
BEGIN:STANDARD
TZOFFSETFROM:-0400
TZOFFSETTO:-0500
TZNAME:EST
DTSTART:20221106T060000
END:STANDARD
BEGIN:DAYLIGHT
TZOFFSETFROM:-0500
TZOFFSETTO:-0400
TZNAME:EDT
DTSTART:20230312T070000
END:DAYLIGHT
BEGIN:STANDARD
TZOFFSETFROM:-0400
TZOFFSETTO:-0500
TZNAME:EST
DTSTART:20231105T060000
END:STANDARD
END:VTIMEZONE
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20221003T143000
DTEND;TZID=America/New_York:20221003T153000
DTSTAMP:20260518T184932
CREATED:20220823T144136Z
LAST-MODIFIED:20220919T191324Z
UID:10001299-1664807400-1664811000@asrc.gc.cuny.edu
SUMMARY:Photonics Seminar: Jeremy Levy\, University of Pittsburgh
DESCRIPTION:Please join us October 3rd\,  for a one-hour talk from Professor Jeremy Levy\, Department of Physics and Astronomy\, University of Pittsburgh\, titled: \n Correlated Nanoelectronics and the Second Quantum Revolution \n\nAbstract – Strongly correlated electronic materials and quantum transport of nanoelectronic systems are areas of research that have traditionally followed non-intersecting paths. With the development of complex-oxide heterostructures and nanostructures\, a nascent field of Correlated Nanoelectronics has emerged. My research program makes extensive use of nanoscale reconfigurability of a complex-oxide heterostructure formed from a thin layer of LaAlO3 grown on SrTiO3. Like an Etch-aSketch toy\, the LaAlO3/SrTiO3 interface can be drawn (and erased) with 2 nm resolution to create a remarkable range of quantum devices. These nanoscale devices can be “aimed” back at the materials themselves to provide insight into their inner workings. This platform has already produced two novel phases of electronic matter: one in which electrons form bound pairs without becoming superconducting\, and a family of one-dimensional degenerate quantum liquids formed from n-tuples of bound electrons. A rich and growing palette of quantum building blocks are currently being explored for applications in quantum computing\, quantum simulation\, and quantum sensing\, major goals of the Second Quantum Revolution. \nBio – Dr. Jeremy Levy is a Distinguished Professor of Physics at the University of Pittsburgh in the Department of Physics and Astronomy at the University of Pittsburgh. He received an A.B. degree in physics from Harvard University in 1988\, and a Ph.D. degree in physics from UC Santa Barbara in 1993. After a postdoctoral position at UC Santa Barbara\, he joined the University of Pittsburgh in 1996. His research interests center around the emerging field of oxide nanoelectronics\, experimental and theoretical realizations for quantum computation\, semiconductor and oxide spintronics\, quantum transport and nanoscale optics\, and dynamical phenomena in oxide materials and films. He is a Class of 2015 Vannevar Bush Faculty Fellow\, a Fellow of the APS and AAAS\, a recipient of the 2008 Nano50 Innovator Award\, and the NSF Career Award. For ten years he served as Founding Director of the Pittsburgh Quantum Institute (2012- 2022). He has received the University of Pittsburgh’s Chancellor’s Distinguished awards for research (2004\, 2011) and teaching (2007)\, and the Provost Award for Excellence in Doctoral Mentoring (2022). \nThis one-hour seminar will be presented in the ASRC Auditorium and broadcast via Zoom\, with time for Q and A to follow. \nZoom access>>>  \nZoom Meeting ID: 875 6105 6897\nPasscode: 118894 \nFor more information about this hybrid event\, please contact: \nLeah Abraha \nlabraha@gc.cuny.edu
URL:https://asrc.gc.cuny.edu/event/photonics-seminar-jeremy-levy-university-of-pittsburgh/
LOCATION:Advanced Science Research Center (ASRC)\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Photonics
ATTACH;FMTTYPE=image/png:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/photonics-seminar-aditya-mohite-rice-university/photonics-website-image.png
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20221007T110000
DTEND;TZID=America/New_York:20221007T120000
DTSTAMP:20260518T184932
CREATED:20220817T155433Z
LAST-MODIFIED:20221004T161700Z
UID:10001298-1665140400-1665144000@asrc.gc.cuny.edu
SUMMARY:Photonics Seminar: Dennis Prather\, University of Delaware
DESCRIPTION:Please join us October 7th\,  for a one-hour talk from Professor Dennis Prather\, Department of Electrical and Computer Engineering\, University of Delaware\, titled: \nPhotonic Technologies for Frequency Agnostic RF Phased Array Systems \n\nAbstract – This presentation will introduce a new approach to realizing broadband RF phased array antenna systems that provide software defined multi-function operation. The approach uses an antenna system that based on spatial perception\, i.e.\, imaging of the RF environment\, and thereby provides inherent spatial orthogonality to beam space processing which minimizes inter-beam interaction and thereby mitigates interference and/or jamming. While most antennas incorporate some degree of spatial selectivity\, few are able to resolve hundreds of high bandwidth RF beams while enabling each to operate with independent functionality all at the same time. To demonstrate this capability\, we have developed a spatially-coherent optical up-conversion process that relies on an RF-photonic feed network to perform real-time\, massive beam-space processing\, where each received beam is focused and thereby spatially resolved\, or isolated\, from all other beams\, which results in a real-time “image” of the RF scene. In so doing\, each beam is spatially orthogonal from the rest\, which mitigates co- and adjacent-channel interference and jamming. In addition\, each focused signal is optically down-converted to an intermediate frequency (IF) where high dynamic range analog-to-digital converters (ADCs) can be used. Thus\, there is no need for ADCs that operate above the IF bandwidth. This dramatically improves the signal-to-noise ratio (SNR) and dynamic range\, which is essential for multi-functional operation. Also\, because the read-out network is based on optical fibers\, it is inherently broadband and\, thus\, a single RF aperture can be used for simultaneous\, multi-functional operation over extremely broad bandwidths. The end result is a multifunctional system that enables extreme spatial diversity and frequency agility\, which is necessary to ensure efficient and effective RF systems in an increasingly congested and contested electromagnetic environment. Design methodology\, fabrication methods for both photonic and electronic devices\, as well as system integration and demonstration will be presented. \nBio – Professor Prather is currently an Endowed Professor of Electrical Engineering\, he is a Fellow of the IEEE\, Fellow of the Society of Photo-Instrumentation Engineers (SPIE)\, Fellow of the Optical Society of America (OSA) and Fellow of the National Academy of Inventors. He has authored or co-authored over 650 scientific papers\, holds over 40 patents\, and has written 16 books/book-chapters. \nThis one-hour seminar will be presented in the ASRC Auditorium and broadcast via Zoom\, with time for Q and A to follow. \nZoom Meeting ID: 595 955 6744 \nPasscode:\n119921 \nFor more information about this hybrid event\, please contact: \nLeah Abraha \nlabraha@gc.cuny.edu
URL:https://asrc.gc.cuny.edu/event/photonics-seminar-dennis-prather-university-of-delaware/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Photonics
ATTACH;FMTTYPE=image/png:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/photonics-seminar-aditya-mohite-rice-university/photonics-website-image.png
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20221010T120000
DTEND;TZID=America/New_York:20221010T130000
DTSTAMP:20260518T184932
CREATED:20220712T205041Z
LAST-MODIFIED:20221003T144843Z
UID:10001293-1665403200-1665406800@asrc.gc.cuny.edu
SUMMARY:Photonics Seminar: Andrea Ferrari\, University of Cambridge
DESCRIPTION:Please join the ASRC Photonics Initiative for a one-hour seminar\, presented by Andrea Ferrari\, University of Cambridge\, titled: \n Layered Materials: Characterization and Applications \nAbstract – Graphene and layered materials (LMs) have great potential in photonics and optoelectronics\, where the combination of their optical and electronic properties can be fully exploited\, and the absence of a bandgap in graphene can be beneficial. The linear dispersion of the Dirac electrons in graphene enables ultra-wide-band tunability as well as gate controllable third-harmonic enhancement over an ultra-broad bandwidth\, paving the way for electrically tuneable broadband frequency converters for optical communications and signal processing. Saturable absorption is observed as a consequence of Pauli blocking and can be exploited for mode-locking of a variety of ultrafast and broadband lasers. Graphene integrated photonics is a platform for wafer scale manufacturing of modulators\, detectors and switches for next generation datacom and telecom. Heterostructures based on LMs have properties different from those of their individual constituents and of their three dimensional counterparts. These can be exploited in novel light emitting devices\, such as single photon emitters\, and tuneable light emitting diodes. LMs have potential for quantum technologies\, as scalable sources of single photon emitters (SPEs). Quantum emitters in LMs hold potential in terms of scalability\, miniaturization\, integration. Generation of quantum emission from the recombination of indirect excitons in heterostructures made of different LMs is a path with enormous potential. I will overview production\, characterization and application of graphene and LMs\, focussing optical and quantum applications. \nBio – Andrea C. Ferrari earned a PhD in electrical engineering from Cambridge University\, after a Laurea in nuclear engineering from Politecnico di Milano\, Italy. He is Professor of nanotechnology and Professorial Fellow of Pembroke College. He founded and directs the Cambridge Graphene Centre and the EPSRC Centre for Doctoral Training in Graphene Technology. He chairs the management panel and is the Science and Technology Officer of the European Graphene Flagship. He is a Fellow of the American Physical Society\, Fellow of the Materials Research Society\, Fellow of the Institute of Physics\, Fellow of the Optical Society and he has been recipient of numerous awards\, such as the Royal Society Brian Mercer Award for Innovation\, the Royal Society Wolfson Research Merit Award\, the Marie Curie Excellence Award\, the Philip Leverhulme Prize\, The EU-40 Materials Prize. He also received 4 European Research Council Grants. \nThis event will be held in the ASRC auditorium while broadcast via Zoom. \nZoom ID# 595 955 6744 \nPasscode: 119921 \nFor further info. please contact: \nLeah Abraha \nlabraha@gc.cuny.edu
URL:https://asrc.gc.cuny.edu/event/photonics-seminar-andrea-ferrari/
LOCATION:Advanced Science Research Center (ASRC)\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Photonics
ATTACH;FMTTYPE=image/png:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/photonics-seminar-aditya-mohite-rice-university/photonics-website-image.png
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20221012T120000
DTEND;TZID=America/New_York:20221012T130000
DTSTAMP:20260518T184932
CREATED:20220628T160424Z
LAST-MODIFIED:20221003T141725Z
UID:10001145-1665576000-1665579600@asrc.gc.cuny.edu
SUMMARY:ASRC-CCNY Seminar Series in Biochemistry\, Biophysics and Biodesign: Andrei A. Korostelev\, University of Massachusetts Chan Medical School
DESCRIPTION:In this weekly seminar series\, Professor Andrei A. Korostelev\, RNA Therapeutics Institute\, University of Massachusetts Chan Medical School\, Worcester\, MA will be giving a one-hour talk titled: \n The ribosome in action: Uncovering translation and new stress sensing mechanisms by cryo-EM \nABSTRACT Ribosomes are a central hub for controlling gene expression. Not only do they synthesize proteins\, but they potently respond to stress signals. Our lab addresses mechanistic questions concerning ribosome functions\, such as: How does the ribosome accurately synthesize proteins? How does the ribosome sense cellular stresses? In my presentation\, I will talk about our use of time-resolved cryo-EM and biochemistry to visualize how the ribosome accurately reads the genetic instructions encoded in mRNA and how stalled ribosomes can initiate profound changes in cellular pathways in response to stress. \nThis seminar will be presented in the ASRC Auditorium and broadcast via Zoom\, with snacks and refreshments to start at 11:30am. \nTo join these ongoing events via Zoom\, please use the link below: \nZoom access>>> \nMeeting ID: 495 404 8198 \nFor more information about this hybrid event please contact: \nLauren Gohara\nlgohara@ccny.cuny.edu\n(212) 650-8803
URL:https://asrc.gc.cuny.edu/event/asrc-ccny-seminar-series-in-biochemistry-biophysics-and-biodesign-andrei-a-korostelev-university-of-massachusetts/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Structural Biology
ATTACH;FMTTYPE=image/png:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/asrc-ccny-seminar-series-in-biochemistry-biophysics-and-biodesign-tristan-bepler-nysbc/SBI-Seminar-website-image.png
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20221012T140000
DTEND;TZID=America/New_York:20221012T150000
DTSTAMP:20260518T184932
CREATED:20221004T162412Z
LAST-MODIFIED:20221011T202530Z
UID:10001323-1665583200-1665586800@asrc.gc.cuny.edu
SUMMARY:Photonics Seminar: Aashish Clerk\, University of Chicago
DESCRIPTION:Please join the Photonics Initiative for a one-hour seminar from Aashish Clerk\, University of Chicago\, titled: \nNon-reciprocal quantum interactions from gauge symmetry \nAbstract – The most common kinds of interactions in physics obey a basic kind of reciprocity: when two systems or particles interact\, each one influences the other\, and information flows in both directions. Engineering quantum interactions that break this symmetry is of both fundamental and practical interest. In this talk\, I will describe a new approach for realizing one-way quantum interactions that does not require breaking time-reversal symmetry\, but instead makes use of a local gauge symmetry present in any Markovian dissipative quantum dynamics. This new route to quantum non-reciprocity is compatible with many experimental setups\, and enables a new\, dissipatively-stabilized approach for implementing quantum gates. I will also discuss a new\, extremely general quantum information-baed metric that allows one to rigorously quantify and compare different kinds of quantum non-reciprocal interactions. \nBio – Aashish Clerk is a theoretical physicist and Professor of Molecular Engineering at the University of Chicago. Clerk’s research focuses on understanding complex phenomena in quantum systems that are both strongly driven and subject to dissipation; it intersects the fields of condensed matter\, quantum optics and quantum information. His research has applications to various areas of quantum technology\, including sensing\, control\, communication and computing. He received his BSc from the University of Toronto and a PhD in Physics from Cornell University. Prior to joining the Pritzker School of Molecular Engineering\, Professor Clerk served as Professor of Physics and Tier-1 Canada Research Chair at McGill University. His work has been recognized by several awards\, including a 2020 Simons Foundation Investigator in Physics Fellowship\, and the 2015 Rutherford Medal in Physics from the Royal Society of Canada. \n This event will be held in the ASRC auditorium\, while broadcast via Zoom. \nZoom ID#  812 3743 9490 \nPasscode: 119921 \nFor further info. please contact: \nLeah Abraha \nlabraha@gc.cuny.edu
URL:https://asrc.gc.cuny.edu/event/photonics-seminar-aashish-clerk-university-of-chicago-2/
LOCATION:Advanced Science Research Center (ASRC)\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Photonics
ATTACH;FMTTYPE=image/png:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/photonics-seminar-aditya-mohite-rice-university/photonics-website-image.png
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20221017T110000
DTEND;TZID=America/New_York:20221017T123000
DTSTAMP:20260518T184932
CREATED:20220630T141500Z
LAST-MODIFIED:20221014T004822Z
UID:10001288-1666004400-1666009800@asrc.gc.cuny.edu
SUMMARY:Photonics Seminar: Vladimir Shalaev and Alexandra Boltasseva\, Purdue University
DESCRIPTION:Please join us October 17th\, for a one-hour talk from Professors Vladimir Shalaev and Alexandra Boltasseva\, Purdue University\, titled: \n Quantum Meta-Photonics \nAbstract – We discuss important challenges in the emerging quantum technology and possible means to address them with ultrafast plasmonic metamaterials and scalable photonic material platforms. \nBio – Vladimir M. Shalaev received a master of science degree in physics with honors in 1979 and a PhD in physics and mathematics in 1983\, both from Krasnoyarsk State University in Russia. In 1983\, he joined the faculty of his alma mater in the department of physics and research staff of the L.V. Kirensky Institute of Physics. In 1990\, he was awarded the Humboldt Foundation Fellowship and was able to continue his work with optics of fractal media in Germany and France. After that\, he became a Research Associate Professor at the University of Toronto in Canada in the chemistry department. In 1993\, Shalaev joined the faculty of New Mexico State University in the physics department. He remained here until 2001 when he became Bob and Anne Burnett Distinguished Professor of Electrical and Computer Engineering at Purdue University. Since coming to Purdue\, Shalaev has worked primarily with optical metamaterials. He and his team have made important and pioneering contributions to the field of optics and been the first to recognize a number of phenomena. Shalaev has received the Rolf Landauer International ETOPIM Association Medal\, the Will Streifer Scientific Achievement Award\, the UNESCO Medal for the Development of Nanosciences and Nanotechnologies\, the Willis E. Lamb Award for Laser Science and Quantum Optics\, and more. He is a Fellow of the Society\, the American Physical Society\, SPIE\, the Materials Research Society\, and the Institute of Electrical and Electronics Engineers. He received the 2010 Max Born Award and the 2014 Joseph W. Goodman Book Writing Award for Optical Metamaterials: Fundamentals and Applications. \n  \nMachine-Learning-Assisted Photonics \nAbstract – Discovering unconventional optical designs via machine-learning promises to advance on-chip circuitry\, imaging\, sensing\, energy\, and quantum information technology. In this talk\, photonic design approaches and emerging material platforms will be discussed showcasting machine-learning-assisted topology optimization for integrated photonics components\, metasurfaces for energy and lightsail applications. The emerging area of machine-learning-assisted quantum photonic characterization and imaging will also be discussed. \nBio – Alexandra Boltasseva is a Professor at the School of Electrical and Computer Engineering at Purdue University. She received her PhD in electrical engineering at Technical University of Denmark\, DTU in 2004. Boltasseva specializes in nanophotonics\, nanofabrication\, optical materials\, plasmonics and metamaterials. She is 2018 Blavatnik National Award for Young Scientists Finalist and received the 2013 IEEE Photonics Society Young Investigator Award\, 2013 Materials Research Society (MRS) Outstanding Young Investigator Award\, the MIT Technology Review Top Young Innovator (TR35)\, the Young Researcher Award in Advanced Optical Technologies from the University of ErlangenNuremberg\, Germany\, and the Young EliteResearcher Award from the Danish Council for Independent Research. She is a Fellow of the Optical Society of America (OSA) and Fellow of SPIE. She served on MRS Board of Directors and is Editor-in-Chief for OSA’s Optical Materials Express. \n  \nThis one-hour seminar will be presented in the ASRC Auditorium and broadcast via Zoom\, with time for Q and A to follow. \nMeeting ID: 881 0535 3695\nPasscode: 042097\nFor more information about this hybrid event\, please contact: \nLeah Abraha \nlabraha@gc.cuny.edu
URL:https://asrc.gc.cuny.edu/event/photonics-seminar-vladimir-shalaev-and-alexandra-boltasseva/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Photonics
ATTACH;FMTTYPE=image/png:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/photonics-seminar-aditya-mohite-rice-university/photonics-website-image.png
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20221018T130000
DTEND;TZID=America/New_York:20221018T140000
DTSTAMP:20260518T184932
CREATED:20220711T164312Z
LAST-MODIFIED:20221017T173756Z
UID:10001292-1666098000-1666101600@asrc.gc.cuny.edu
SUMMARY:Photonics Seminar: Julian Patrick Klein\, Massachusetts Institute of Technology
DESCRIPTION:Please join us October 18th\, for a one-hour talk from Julian Patrick Klein\, Massachusetts Institute of Technology\, titled: \n Towards atomic level engineered interaction of quantum matter in layered materials \nAbstract – The discovery of quantum materials and the rapid development of instruments equipped to tailor them at the atomic scale are both key enablers for quantum matter engineering with applications in quantum simulation\, quantum photonics and spintronics. \nIn this seminar we will show that the layered magnetic semiconductor CrSBr fulfills several key requirements for controllably engineeredquantum matter. First\, we will show that CrSBr is electronically a quasi-1D material manifesting in its quasiparticles and their mutual interactions. [1] Second\, we will show that CrSBr hosts optically active defects that are correlated with the magnetic phase diagram and with a defect-induced magnetic order. [2] Third\, we will demonstrate that CrSBr is highly amenable to atomic manipulation in a scanning transmission electron microscope undergoing an electron beam induced phase transformation. [3] Lastly\, we will show deep learning augmented defect detection in CrSBr [4] and give a brief outlook on the prospects for periodic atomic level engineered quantum matter in this material. \nOverall\, CrSBr offers optically active localized defects correlated with the magnetic phase diagram while being amenable to atomic level manipulation providing new means to access microscopic many-body phenomena using optical spectroscopy. \n[1] Klein\, J. et al.\, The bulk van der Waals layered magnet CrSBr is a quasi-1D quantum material\narXiv:2205.13456 under review (2022)\n[2] Klein\, J. et al.\, Sensing the local magnetic environment through optically active defects in a layered\nmagnetic semiconductor arXiv:2207.02884 under review (2022)\n[3] Klein\, J. et al.\, Control of structure and spin texture in the van der Waals layered magnet CrSBr\narXiv:2107.00037 in print Nat. Comms. (2022)\n[4] Weile\, M. and Klein\, J. et al.\, Deep learning facilitated analysis of defects and alloying in a two-dimensional magnet in preparation (2022) \nBio – Julian Klein is a postdoctoral fellow at MIT in the Department of Materials Science and Engineering in the group of Prof. Frances Ross. He received his doctorate in experimental physics at the Technical University of Munich (TUM) in 2019 where he investigated new means to create large scale quantum photonic systems in two-dimensional materials. As part of his doctorate\, he conducted a 3-month research stay at the IBM Thomas J. Watson Research Center in Yorktown Heights. In 2020\, he was awarded a Feodor-Lynen postdoctoral fellowship from the Alexander von Humboldt foundation. His current research interests include atomic level quantum matter engineering in novel low-dimensional materials as platforms for highly scalable quantum technologies. \nThis one-hour seminar will be presented in the ASRC Auditorium and broadcast via Zoom\, with time for Q and A to follow. \nZoom Meeting ID: 872 1216 6637\nPasscode: 595090 \nFor more information about this hybrid event\, please contact: \nLeah Abraha \nlabraha@gc.cuny.edu
URL:https://asrc.gc.cuny.edu/event/photonics-seminar-julian-patrick-klein-mit/
LOCATION:Advanced Science Research Center (ASRC)\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Photonics
ATTACH;FMTTYPE=image/png:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/photonics-seminar-aditya-mohite-rice-university/photonics-website-image.png
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20221019T120000
DTEND;TZID=America/New_York:20221019T130000
DTSTAMP:20260518T184932
CREATED:20220628T162459Z
LAST-MODIFIED:20221014T003649Z
UID:10001147-1666180800-1666184400@asrc.gc.cuny.edu
SUMMARY:ASRC-CCNY Seminar Series in Biochemistry\, Biophysics and Biodesign: Margaret McFall-Ngai\, California Institute of Technology
DESCRIPTION:In this weekly seminar series\, Margaret McFall-Ngai\, Director of the Division of Biosphere Sciences & Engineering\, Carnegie Institution for Science\, Church Laboratory\, California Institute of Technology\, will be giving a one-hour talk titled: \n First contact: Ecological to molecular challenges during recruitment of bacterial symbionts from the environment \nABSTRACT In symbioses established through horizontal transmission\, which occurs in a wide variety of animals\, from sponges to mammals\, evolution has selected for mechanisms that promote the recruitment of symbionts from the environment. Using the binary association between the Hawaiian bobtail squid\, Euprymna scolopes\, and its symbiont\, Vibrio fischeri\, we have explored this phenomenon. This presentation will focus on the first minutes to hours of host-symbiont interaction. Our research has discovered that a complex biophysical and biochemical dialogue between the symbiotic partners promotes the establishment of a highly specific association. \nThis seminar will be presented in the auditorium and via Zoom. \nTo join these ongoing events via Zoom\, please use the link below: \nZoom Access>>> \nFor more information about this hybrid event please contact: \nHyacinth Camillieri \nhcamillieri@gc.cuny.edu
URL:https://asrc.gc.cuny.edu/event/asrc-ccny-seminar-series-in-biochemistry-biophysics-and-biodesign-margaret-mcfall-ngai-carnegie-institution-for-science-at-caltech/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Structural Biology
ATTACH;FMTTYPE=image/png:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/asrc-ccny-seminar-series-in-biochemistry-biophysics-and-biodesign-tristan-bepler-nysbc/SBI-Seminar-website-image.png
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20221024T120000
DTEND;TZID=America/New_York:20221024T130000
DTSTAMP:20260518T184932
CREATED:20220919T195234Z
LAST-MODIFIED:20221024T153401Z
UID:10001305-1666612800-1666616400@asrc.gc.cuny.edu
SUMMARY:Photonics Seminar: Yuri Kivshar\, Australian National University
DESCRIPTION:Please join us October 24th\, for a one-hour talk from Yuri Kivshar\, Australian National University\, titled: \nMie-resonant metaphotonics and metasurfaces \nAbstract – I will discuss recent trends in metamaterial research driven by the emergence of a new field of metaphotonics based on the physics of Mie resonances excited in dielectric nanoparticles and voids created in a high-index dielectric media. This provides a novel platform for localization of light in subwavelength photonic structures and opens new horizons for metamaterial-enabled photonics with applications to nonlinear optics\, biosensing\, and chiral nanophotonics. \nBio – Yuri Kivshar received his PhD degree in Kharkov\, Ukraine. He was a Humboldt Fellow at the University of Duesseldorf\, Germany and served as a visiting fellow at several research centers and universities in the US and Europe. In 1993\, Kivshar moved to Australia where he established the Nonlinear Physics Center at the Australian National University. Kivshar is a world leader in photonics and metamaterials\, who is recognized for his seminal contributions to the study of nonlinear and topological phenomena in light-matter interaction. He is one of the founders of all-dielectric resonant metaphotonics governed by the physics of Mie resonances in dielectric nanoparticles with high refractive index. His innovative ideas and high-impact\, influential papers are driving several research fields. \nHe is currently a Deputy Editor of Photonics Research and has served on several Optica committees. He is a Fellow of Optica\, the American Physical Society\, the Australian Academy of Science\, the Institute of Physics and SPIE. His research has garnered many national and international awards\, including International Stephanos Pnevmatikos Award\, Lyle Medal\, Lebedev Medal\, The State Prize of the Ukraine in Science and Technology\, Harrie Massey Medal\, Humboldt Research Award\, and SPIE Mozi Award. In 2022\, Kivshar received the Max Born Award “for pioneering and ground-breaking research in nonlinear metamaterials and all-dielectric resonant metaphotonics that derives unique optical functionalities from electric and magnetic dipolar and multipolar Mie-type resonances underpinning new discoveries in nonlinear and topological nanophotonics.” \n  \nThis talk will be held in the ASRC auditorium while broadcast via Zoom.  \nID: 849 2273 3358 \nFor more information about this hybrid event\, please contact: \nLeah Abraha \nlabraha@gc.cuny.edu
URL:https://asrc.gc.cuny.edu/event/photonics-seminar-yuri-kivshar-australian-national-university/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Photonics
ATTACH;FMTTYPE=image/png:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/photonics-seminar-aditya-mohite-rice-university/photonics-website-image.png
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20221026T120000
DTEND;TZID=America/New_York:20221026T130000
DTSTAMP:20260518T184932
CREATED:20220628T164241Z
LAST-MODIFIED:20221020T155214Z
UID:10001148-1666785600-1666789200@asrc.gc.cuny.edu
SUMMARY:ASRC-CCNY Seminar Series in Biochemistry\, Biophysics and Biodesign: Carrie Partch\, UC Santa Cruz
DESCRIPTION:In this weekly seminar series\, Carrie Partch\, Professor in the Department of Chemistry & Biochemistry\, University of California at Santa Cruz\, Santa Cruz\, CA\, will be giving a one-hour talk titled: \nMorning larks and night owls shed light on human circadian timekeeping\n \nABSTRACT Our lives are intimately linked to Earth’s 24- hour solar cycle via circadian clocks that coordinate physiology and behavior into rhythms that coincide with the day/night cycle. By integrating structural biology\, biochemistry\, and cell biology\, we’ve been working to identify how dedicated clock proteins interact with one another to establish a deeper understanding of the transcription-based feedback loop that underlies circadian rhythms in mammals. Recent insights into the genetic basis of morning lark and night owl behavior have shed light on key molecular steps in the clock that play a powerful role in determining the intrinsic timing of circadian clocks in humans. Some of these recent advances will be discussed to explore the biochemical basis for circadian timekeeping. \nThis seminar will be presented in the 5th floor data visualization room while broadcast via Zoom\, with snacks and refreshments to start at 11:30am. \nTo join these ongoing events via Zoom\, please use the link below: \nZoom access>>> \nTo further inquire about this hybrid event please contact: \nHyacinth Camillieri \nhcamillieri@gc.cuny.edu
URL:https://asrc.gc.cuny.edu/event/asrc-ccny-seminar-series-in-biochemistry-biophysics-and-biodesign-carrie-partch-uc-santa-cruz/
LOCATION:ASRC 5th Floor Data Visualization Room\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Structural Biology
ATTACH;FMTTYPE=image/png:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/asrc-ccny-seminar-series-in-biochemistry-biophysics-and-biodesign-tristan-bepler-nysbc/SBI-Seminar-website-image.png
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20221028T153000
DTEND;TZID=America/New_York:20221028T173000
DTSTAMP:20260518T184932
CREATED:20221021T160649Z
LAST-MODIFIED:20221024T153538Z
UID:10001324-1666971000-1666978200@asrc.gc.cuny.edu
SUMMARY:Guest Speaker and Graduate Center Alum\, Dennis C. Liotta\, Ph.D.
DESCRIPTION:We are excited to announce Dr. Dennis C. Liotta\, Executive Director\, Emory Institute for Drug Development (EIDD)\, Samuel Candler Dobbs Professor of Chemistry\, Emory College Founding and Editor-in-Chief of ACS Publications\, Medicinal Chemistry Letters\, will be presenting a talk titled: \n“Novel Therapeutics for Treating Cancers\, Neurological Disorders and Viral Diseases”  \nPlease join us for the seminar at 3:30pm in the ASRC auditorium and full reception in the cafe to follow! This event/ seminar will be in-person at the ASRC\, as well as broadcast via Zoom. \nDr. Dennis C. Liotta is an extraordinary Graduate Center alum whose innovations have resulted in 18 life-saving FDA-approved antiviral therapeutics\, including the first-ever combination therapy for HIV/AIDS as a once-daily pill\, thereby transforming what was once a death sentence to millions of HIV/AIDS patients living long and near-normal lives. \nYou can check out his TED talk here for his work on Zika and other neglected diseases in Africa through DRIVE\, a non-for-profit organization\, and click here to see his full research profile. \nPlease see here for Dr. Liotta’s full bio. \nFurther questions can be emailed to asrc.event@gc.cuny.edu \n  \n 
URL:https://asrc.gc.cuny.edu/event/seminar-from-graduate-ceneter-alum-dennis-c-liotta-ph-d/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Environmental Sciences,Nanoscience,Neuroscience,Photonics,Structural Biology
ATTACH;FMTTYPE=image/png:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/seminar-from-graduate-ceneter-alum-dennis-c-liotta-ph-d/liotta-seminar-flyer-for-website.png
END:VEVENT
END:VCALENDAR