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BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230503T113000
DTEND;TZID=America/New_York:20230503T130000
DTSTAMP:20260523T185315
CREATED:20221122T194654Z
LAST-MODIFIED:20230502T181113Z
UID:10001337-1683113400-1683118800@asrc.gc.cuny.edu
SUMMARY:ASRC-CCNY Seminar Series in Biochemistry\, Biophysics and Biodesign: Yingkai Zhang\, NYU
DESCRIPTION:In this weekly seminar series\, Yingkai Zhang\, professor in the Department of Chemistry\, New York University\, NY\, will present a one-hour talk titled: \n“Integrating Machine Learning and Molecular Modeling for Drug Design.” \nAbstract The overall goal of our lab is to develop and apply state-of-the-art computational tools for rational drug design. In this talk\, I will present our recent advances in targeting protein-protein interactions\, developing machine-learning based protein ligand scoring functions\, and advancing deep learning models in chemistry. \nThis seminar will be presented in the 5th fl Data Viz Room and broadcast via Zoom\, with snacks and refreshments to start at 11:30am in the Data Viz Room. \nTo join these ongoing events via Zoom: \nMeeting ID:  968 3104 2138\nPasscode:  ASRC-CDI \nFor more information about this hybrid event please contact: \nHyacinth Camillieri \nhcamillieri@gc.cuny.edu \n  \nDownload the updated Spring 2023 Seminar Schedule (92 KB .PDF file)
URL:https://asrc.gc.cuny.edu/event/asrc-ccny-seminar-series-in-biochemistry-biophysics-and-biodesign-yingkai-zhang-nyu/
LOCATION:ASRC 5th Floor Data Visualization Room\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Structural Biology
ATTACH;FMTTYPE=image/jpeg:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/summer-2023-photonics-initiative-seminar-junsuk-rho-pohang-university-of-science-and-technology-postech-korea/SBI-Seminar-Fall-2023-website-image-3.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230510T113000
DTEND;TZID=America/New_York:20230510T130000
DTSTAMP:20260523T185315
CREATED:20230410T144744Z
LAST-MODIFIED:20230504T133301Z
UID:10001351-1683718200-1683723600@asrc.gc.cuny.edu
SUMMARY:ASRC-CCNY Seminar Series in Biochemistry\, Biophysics and Biodesign: May Khanna\, NYU College of Dentistry
DESCRIPTION:In this final ASRC-CCNY Spring 2023 Biochem Seminar\, we are happy to have Associate Professor\, May Khanna\, from NYU College of Dentistry join us at the ASRC for a talk on\, “Chemical biology\, structure-based approach to targeting protein-protein and protein-RNA interactions for AD/ADRD therapeutics.” \nABSTRACT Dr. Khanna’s research focuses on drug development in neurodegenerative diseases. Her laboratory is targeting through rational\, structure-based design protein-RNA and protein-protein interactions using small molecules\, aptamers\, and oligonucleotide therapeutics. She will highlight work done on several diseases and how they intersect with chemical biology. \nThis seminar will be presented in the ASRC Auditorium and broadcast via Zoom\, with snacks and refreshments to start at 11:30am in the cafe. \nTo join this seminar via Zoom: \nMeeting ID: 968 3104 2138\nPasscode: ASRC-CDI \nFor more information\, please contact: \nHyacinth Camillieri \nhcamillieri@gc.cuny.edu
URL:https://asrc.gc.cuny.edu/event/asrc-ccny-seminar-series-in-biochemistry-biophysics-and-biodesign-may-khanna-nyu-college-of-dentistry/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Structural Biology
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230511T120000
DTEND;TZID=America/New_York:20230511T133000
DTSTAMP:20260523T185315
CREATED:20230502T141645Z
LAST-MODIFIED:20230502T181047Z
UID:10001357-1683806400-1683811800@asrc.gc.cuny.edu
SUMMARY:ASRC Environmental Science Initiative Seminar: Beizhan Yan\, Columbia University
DESCRIPTION:In this one- hour seminar Beizhan Yan\, PhD\, Lamont Associate Research Professor at Lamont-Doherty Earth Observatory (LDEO) of Columbia University will present a one-hour talk titled: “Microplastic Distribution and Associated Pathogens and Pollutants in NYC Waterways.” \nAbstract: Varying levels of microplastics were observed in NYC waters\, with the highest concentration observed in Newtown Creek and the lowest in the Hudson upstream of New York Harbor. Additionally\, in-situ adsorption experiments conducted in Newtown Creek and Brooklyn Navy Yard demonstrated the potential of microplastics to transport pollutants and pathogens including tuberculosis. Notably\, flame retardant compounds such as PCBs\, PBDEs\, and TBBPA were found on plastic pellet surfaces\, with significantly higher adsorption on HDPE compared to PVC. Gene analyses revealed significant differences in microbial community between water and plastic samples. Using a modeling approach\, we estimated that the\nresidence time of microplastics in the Harbor-estuary region is approximately two weeks\, with a predominant transport pathway down the New Jersey coast\, eventually entering the Atlantic Ocean. \nBio: Dr. Beizhan Yan received his Ph.D. in 2004 from Rensselaer Polytechnic Institute (RPI)\, Troy\, NY and currently\, he is a Lamont Associate Research Professor at Lamont- Doherty Earth Observatory (LDEO) of Columbia University. In 2007\, he joined LDEO\, and since then\, he has established an Environmental Organic Geochemistry Lab from scratch with the ability to extract\, isolate\, and identify organic contaminants and biomarkers from environmental and biological samples. He is leading collaborative studies in measuring the microplastic and nanoplastics in NYC waterways and air and characterizing their exposures\, and linking exposures to various adverse health outcomes\, including neurodegeneration diseases. \nThis seminar will take place in person\, with lunch provided at 1pm. To join via Zoom\, please use:  \nMeeting ID: 849 5909 3743 \nPasscode: 083738 \n+1 646 558 8656 US (New York) \nFor further details\, contact:\nDoris Switzer\n212.413.3142\ndswitzer@gc.cuny.edu
URL:https://asrc.gc.cuny.edu/event/asrc-environmental-science-initiative-seminar-beizhan-yan-columbia-university/
LOCATION:ASRC 1st Floor Seminar Room\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Environmental Sciences,Nanoscience
ATTACH;FMTTYPE=image/jpeg:https://asrc.gc.cuny.edu/wp-content/uploads/media/event/environmental-science-initiative-seminar-jose-pillich-phd-the-graduate-center-cuny/SBI-Seminar-Fall-2023-website-image7.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230512T100000
DTEND;TZID=America/New_York:20230512T110000
DTSTAMP:20260523T185315
CREATED:20230504T162648Z
LAST-MODIFIED:20230504T164839Z
UID:10001359-1683885600-1683889200@asrc.gc.cuny.edu
SUMMARY:Spring 2023 Photonics Initiative Seminar: Rohit Chikkaraddy\, University of Birmingham
DESCRIPTION:In this one-hour seminar\, Rohit Chikkaraddy\, University of Birmingham\, will be presenting a talk titled: “Single-molecule mid-infrared vibrational spectroscopy and detection in plasmonic nanogaps.” \nAbstract – The detection of molecular vibrations in the mid-infrared (MIR) range (λ=3-30μm) at room temperature has a wide range of applications including gas sensing\, medical imaging\, astronomical survey\, and quantum communication. However\, current technologies rely on energy-intensive low-temperature semiconductor detectors such as mercury cadmium telluride\, which are limited by thermal noise. In this talk\, I will present our recent developments in overcoming this challenge using plasmonic nanogaps\, by upconverting low-energy MIR light into high-energy visible light (λ=500-800nm)\, which can be detected using silicon technology capable of single-photon detection [1-3]. This involves strongly coupling surface plasmons between two metallic nanostructures spaced a few nanometers apart\, confining light to extreme dimensions and enabling coherent coupling of light to electronic and vibrational states of molecules assembled in the nanogaps. The measured coupling strengths approach strong light-molecule coupling at room temperature [4\,5]\, enabling Purcell-enhanced light emission [6] and optomechanics with bond vibrations [7]. Recent advancements in surfaceenhanced Raman scattering (SERS) and enhanced light emission have unlocked new possibilities for detecting molecular vibrations in the mid-infrared range at room temperature. Here\, I will present three different methods to achieve this (Fig.1). The first method involves using nanoparticle-on-foil nanocavities that can support both visible and MIR plasmonic hotspots\, allowing modulation of molecular SERS signals in the presence of MIR photons due to the MIR absorption in the phonon resonance of the substrates [2\,8]. The second method involves the suppression of phonon absorption\, and 140% amplification of the SERS antiStokes emission when an MIR pump is tuned to a molecular vibrational frequency [3\,10]. The third method involves assembling molecular emitters into nanoscale cavities and continuously pumping them with optical energy\, resulting in the transduction of MIR light absorbed by the molecular vibrations into visible luminescence [1\,9]. These demonstrations hold immense potential not just for molecular spectroscopy and sensing but also for quantum preparation of vibrational states for mode-selective chemistry and nano-optics\, leading to a wide range of possibilities. \nReferences\n[1] Chikkaraddy\, Rohit\, et al. arXiv:2205.07792 (2022). [2] Chikkaraddy\, Rohit\, et al. Light: Science & Applications 11.1 (2022): 19. [3]\nXomalis\, Angelos\, et al. Science 374.6572 (2021): 1268-1271. [4] Chikkaraddy\, Rohit\, et al. Nature 535.7610 (2016): 127-130. [5]\nOjambati\, Oluwafemi S.\, et al. Nature communications 10.1 (2019): 1049. [6] Chikkaraddy\, Rohit\, et al. Nano letters 18.1 (2018): 405-\n411. [7] Benz\, Felix\, et al. Science 354.6313 (2016): 726-729. [8] Chikkaraddy\, Rohit\, et al. ACS photonics 8.9 (2021): 2811-2817. [9]\nArul\, Rakesh\, et al. Light: Science & Applications 11.1 (2022): 281. [10] Xomalis\, Angelos\, et al. Nano Letters 21.6 (2021): 2512-2518. \nBio – Dr. Rohit Chikkaraddy is an Assistant Professor at the University of Birmingham\, UK. His research focuses on developing novel approaches to probe quantum materials interactions at the nanoscale. After earning his PhD in Physics from the University of Cambridge in 2018\, he was awarded the prestigious Junior Research Fellowship at Trinity College\, Cambridge. Dr. Chikkaraddy has been recognized with numerous awards\, scholarships\, and travel grants for his exceptional contributions as an early career researcher\, including the 2021 IOP Bates Prize. \nThis is an in-person seminar\, int he 5th fl Data Viz Room.\nIf you opt to join via Zoom\, please use: \nMeeting ID  858 6030 5564 \nPasscode   090967 \nSee the complete 2023 Spring Photonics Seminar Series Schedule here.
URL:https://asrc.gc.cuny.edu/event/spring-2023-photonics-initiative-seminar-rohit-chikkaraddy-university-of-birmingham/
LOCATION:ASRC 5th Floor Data Visualization Room\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Photonics
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BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230515T120000
DTEND;TZID=America/New_York:20230515T130000
DTSTAMP:20260523T185315
CREATED:20230425T160118Z
LAST-MODIFIED:20230502T181021Z
UID:10001354-1684152000-1684155600@asrc.gc.cuny.edu
SUMMARY:Spring 2023 Photonics Initiative Seminar: Yandong Li\, Cornell University
DESCRIPTION:In this one-hour seminar\, Yandong Li\, Cornell University\, will be presenting a talk titled: “Topological Directional Coupler Based on a Designer Domain Wall.” \nAbstract – Nobel laureate H. Kroemer’s famous quote in 2000\, “The interface is the device”\, summarized the historic success of semiconductors. For the following two decades\, the dictionary of new materials has been greatly enriched. With topological insulators\, artificial metamaterials\, moiré superlattices\, etc.\, we expect versatile\, robust\, and compact photonic and electronic components to emerge. \nIn this talk\, I will present a topological directional coupler that couples edge modes in a tunable way while maintaining their unidirectionality. The first part will focus on the design\, the theoretical analysis\, and\, particularly\, the idea of interfering and programming topological modes by intentionally breaking or relaxing the corresponding symmetry. Then\, I will present the experimental results of a classical Rabi oscillation performed by this topological directional coupler. I will conclude with the future prospects of this design and its potential applications in building large-scale efficient\, robust\, and compact optical computing machinery. \nBio – Yandong Li is a PhD candidate under the supervision of Prof. Gennady Shvets in the School of Applied and Engineering at Cornell University. He received his BSc in Engineering Physics from Case Western Reserve University in 2016. His research interest spans topological photonics\, metamaterials\, and optical computing. \nThis seminar will be presented in the 5th fl Data Viz Room\, with the option to join online via Zoom. \nTo join via Zoom: \nID 858 5234 0862 \nPasscode 723514 \nFor further information\, please contact: \nLeah Abraha \nlabraha@gc.cuny.edu
URL:https://asrc.gc.cuny.edu/event/spring-2023-photonics-seminar-yandong-li-cornell-university/
LOCATION:ASRC 5th Floor Data Visualization Room\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Photonics
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230519T100000
DTEND;TZID=America/New_York:20230519T110000
DTSTAMP:20260523T185315
CREATED:20230502T140508Z
LAST-MODIFIED:20230502T181002Z
UID:10001356-1684490400-1684494000@asrc.gc.cuny.edu
SUMMARY:Spring 2023 Photonics Initiative Seminar: Alexander Senichev\, Purdue University
DESCRIPTION:In this one-hour seminar\, Alexander Senichev\, Purdue University\, will be presenting a talk titled: “Quantum Photonics with Intrinsic Single-Photon Emitters in Silicon Nitride.” \nAbstract – Photonic-based quantum platforms are highly promising for both fundamental studies and practical applications in quantum information science due to photon’s ultimate speed\, weak interactions with matter and robustness to decoherence. Discovering and exploring on-chip photonic elements that can efficiently generate\, manipulate\, and detect quantum states of light\, and integrate these components in a low-loss and scalable platform\, is an urgent need. Silicon nitride (SiN) is one of the most promising and established material platforms for integrated quantum photonics. However\, until recently\, SiN lacked an intrinsic atomic-like source of single photons\, which required the use of probabilistic nonlinear sources or hybrid heterogeneous integration with other materials hosting quantum emitters. In our research\, we discovered intrinsic color centers in low-autofluorescence SiN and developed techniques for their creation [1]. These emitters exhibit high single-photon purity and brightness at room temperature. Furthermore\, they can be monolithically integrated with the technologically favorable silicon nitride photonics platforms [2]\, which holds great potential for various applications in the quantum domain. In my talk\, I will delve into our research effort to engineer these novel quantum emitters in SiN\, integrate them with on-chip photonic structures\, and explore their photophysical properties [3] and potential avenues for their improvement and applications.\nReferences\n[1] Senichev et al.\, Sci. Adv. 7\, eabj0627 (2021)\n[2] Senichev et al.\, ACS Photonics\, 9(10)\, 3357–3365 (2022)\n[3] Martin et al.\, ArXiv\, 2301.10809 (2023) \nBio – Alexander Senichev is a postdoctoral researcher in Prof. Vladimir M. Shalaev’s group at Purdue University. His primary focus is on experimental nanophotonics and materials for quantum photonic applications. He completed his doctoral research at the Max Planck Institute of Microstructure Physics (Germany) and obtained his Ph.D. in Physics with distinction in 2016\, followed by a postdoctoral position in the Quantum Semiconductor Systems Group at Purdue University. He joined the Prof. Shalaev’s Group in 2020 to work on the goal of developing materials for quantum photonic devices\, which involves exploring optically active defects in solids with the aim of identifying a new generation of chip-integrated solid-state quantum emitters. His contributions to the field include the discovery of single-photon emitters in a technologically important silicon nitride photonic platform. \nThis is an in-person seminar. If you opt to join via Zoom use: \nMeeting ID  820 0152 2880 \nPasscode  560793 \nFor further information\, please contact: \nLeah Abraha \nlabraha@gc.cuny.edu
URL:https://asrc.gc.cuny.edu/event/summer-2023-photonics-initiative-seminar-alexander-senichev/
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/asrc-ccny-seminar-series-in-biochemistry-biophysics-and-biodesign-may-khanna-nyu-college-of-dentistry/SBI-Seminar-Fall-2023-website-image4.png
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BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230525T120000
DTEND;TZID=America/New_York:20230525T133000
DTSTAMP:20260523T185315
CREATED:20230130T205112Z
LAST-MODIFIED:20230511T183120Z
UID:10001194-1685016000-1685021400@asrc.gc.cuny.edu
SUMMARY:Environmental Science Initiative Seminar: Jose Pillich\, PhD\, The Graduate Center-CUNY
DESCRIPTION:In this weekly seminar series\, Jose Pillich\, PhD\, The Graduate Center-CUNY and Founder of IQSpatial\, will present a one- hour talk titled: \n“IQSpatial: Geospatial Data Stories.” \nThis seminar series will take place in the 1st Fl Seminar Room with the option to join via Zoom. \nPlease follow lobby signage directing you to the 1st Fl corridor windows where you will then walk right until reaching the 1st Fl Seminar Room. \nMeeting ID: 892 7906 4948 Passcode: 516742\nDial by your location: +1 646 558 8656 US (New York) \nFurther questions can be emailed to: \nDoris Switzer \nEnvironmental Science Initiative Coordinator \nswitzer@gc.cuny.edu
URL:https://asrc.gc.cuny.edu/event/environmental-science-initiative-seminar-jose-pillich-phd-the-graduate-center-cuny/
LOCATION:ASRC 1st Floor Seminar Room\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Environmental Sciences
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230531T103000
DTEND;TZID=America/New_York:20230531T113000
DTSTAMP:20260523T185315
CREATED:20230516T165936Z
LAST-MODIFIED:20230516T165936Z
UID:10001370-1685529000-1685532600@asrc.gc.cuny.edu
SUMMARY:Spring 2023 Photonics Initiative Seminar: Dragomir Neshev\, Australian National University
DESCRIPTION:In this one-hour seminar\, Dragomir Neshev\, Australian National University\, will be presenting a talk titled\, “Nonlinear and quantum light sources from ultra-thin nanostructured surfaces.” \nAbstract – Nonlinear optical phenomena are central to a myriad of applications in light sources and microscopy. Nonlinear optical effects\, such as harmonic generation\, frequency mixing and spontaneous parametric down conversion are fundamentally enhanced in materials with a high refractive index\, as well as by the presence of resonant photonic environment. These conditions are automatically fulfilled in resonant dielectric metasurfaces\, which has triggered large interest in nonlinearity enhancement at the nanoscale. Despite their small volume\, the dielectric metasurfaces can enhance the nonlinear frequency conversion to a level similar to millimetre-scale nonlinear crystals. Importantly\, the nanostructuring enables properties not possible in bulk crystals\, including engineering of the directionality of emission and polarisation of the emitted light. In this talk\, I will review our group’s recent advances in the field of nonlinear metasurfaces for enhancement of nonlinear frequency conversion\, generation of entangled photons and nonlinear upconversion imaging. \nBio – Dragomir Neshev is the Director of the Australian Research Council Centre of Excellence for Transformative Meta-Optical Systems (TMOS) and a Professor of Physics at the Australian National University (ANU). He received a PhD from Sofia University\, Bulgaria\, in 1999. Since then\, he has worked at several research centres worldwide before joining the ANU in 2002. He has been recognized for his outstanding work with numerous honours\, including being named a Highly Cited Researcher (Web of Science\, 2022 & 2021)\, receiving a Queen Elizabeth II Fellowship (ARC\, 2010)\, and being awarded a Marie-Curie Individual Fellowship (European Commission\, 2001). His activities span several branches of optics\, including meta-optics\, metasurfaces\, periodic photonic structures\, and singular optics. \nThis is an in-person seminar. If you opt to join via Zoom use: \nMeeting ID 885 1212 4078 \nPasscode 978549 \nFor further information\, please contact: \nLeah Abraha \nlabraha@gc.cuny.edu
URL:https://asrc.gc.cuny.edu/event/spring-2023-photonics-initiative-seminar-dragomir-neshev-australian-national-university/
LOCATION:ASRC Auditorium\, 85 St. Nicholas Terrace\, New York\, NY\, 10031\, United States
CATEGORIES:Photonics
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