Ongoing

WIND INSTITUTE TECHNICAL BOOTCAMP @ NJIT

Bldg: Agile Strategy Lab, New Jersey Institute of Technology, 355 Dr Martin Luther King Jr Blvd, Newark, New Jersey, United States, 07102

(https://njitcl.catalog.instructure.com/) Bootcamp Objective: This 2-day offshore wind training bootcamp is for students and professionals with engineering or physical science backgrounds who are interested in starting or upskilling their career in the offshore wind industry. Through intensive training, the bootcamp aims to cover the technical aspects of offshore wind farm development, including environmental impact assessments, energy generation, transmission, grid integration, energy storage systems, and more! This bootcamp training will issue a certificate of completion from the New Jersey Institute of Technology (NJIT) and the opportunity to claim 14 Professional Development Hours (PDH) after successful completion of the online examination (multiple-choice questions) at the end of the bootcamp. Bootcamp Overview: Day 1: - Opening Keynote from NJ Economic Development Authority - Course 1: Offshore Wind Farm Overview - Course 2: Generation - Course 3: Offshore Transmission - Course 4: Onshore Transmission and Construction Day 2: - Opening Keynote from NJ Board of Public Utilities - Presentation on the Participation of Minority and Underrepresented Engineers in Wind Energy - Course 5: Community and Environmental Management - Course 6: Offshore Wind Farm Project Management - Course 7: Energy Storage System for Renewable - Course 8: Grid Interconnection and Integration - Take-Home Online Examination (Multiple-Choice Questions) Target Audience: There are no formal prerequisite courses, but participants are encouraged to have a foundational understanding of engineering or physical sciences, preferably at a college or advanced-placement level. The bootcamp aims to provide a short-term, rigorous, fast-paced, and focused fundamental training to help practicing engineers, researchers, and graduates to be well-prepared for the new field of offshore wind energy. Co-sponsored by: New Jersey Institute of Technology (NJIT) Agenda: [] Bldg: Agile Strategy Lab, New Jersey Institute of Technology, 355 Dr Martin Luther King Jr Blvd, Newark, New Jersey, United States, 07102

IEEE NY JOINT MTT AP PHO & NANO CHAPTER – SEMINAR: Manipulating Light with Optical Metasurfaces: from Classical to Quantum

Room: Auditorium, Bldg: Advanced Science Research Center CUNY, 85 St. Nicholas Terrace, New York, New York, United States, NY 10031, Virtual: https://events.vtools.ieee.org/m/447321

Abstract – This talk focuses on the interaction of electromagnetic waves with metamaterials and manipulating the polarization state of light, which are essential for on-chip photonics and quantum information processing. By designing a metasurface based on geometrical-scaling-induced phase modulations, the transformation and distribution of different polarization-entangled photon pairs have been realized with multichannel dielectric metasurfaces. This is a significant development in applying metasurface to quantum networks. We also show a strategy to overcome the fundamental limit of polarization multiplexing capacity of metasurfaces by introducing the engineered noise to the precise solution of Jones matrix elements, where the conventional restriction of polarization multiplexing roots from the dimension constraint of the Jones matrix. This approach implies a new paradigm for high-capacity optical display, information encryption, and data storage. As a practical application, we also present a metasurface that achieves a matte appearance in reflection while offering broadband, perfect transmission, showcasing its potential for various optical technologies. References: Y.J. Gao et al., Simultaneous generation of arbitrary assembly of polarization states with geometrical-scaling-induced phase modulation, Physical Review X 10 (3), 031035 (2020) Y.J. Gao, et al., Metasurface design for the generation of an arbitrary assembly of different polarization states, Physical Review B 104 (12), 125419 (2021) Y.J. Gao, et al., Multichannel distribution and transformation of entangled photons with dielectric metasurfaces Physical Review Letters 129, 023601 (2022) Xiong, et al., Breaking the limitation of polarization multiplexing in optical metasurfaces with engineered noise, Science 379, 294 (2023) Chu, et al., Diffuse reflection and reciprocity-protected transmission via a random-flip metasurface, Science Advances 7, eabj0935 (2021) Chu, et al., Matte surfaces with broadband transparency enabled by highly asymmetric diffusion of white light, Science Advances 10, eadm8061 (2024) Co-sponsored by: Advanced Science Research Center - the Graduate Center - City University of New York Speaker(s): Mu Wang Room: Auditorium, Bldg: Advanced Science Research Center CUNY, 85 St. Nicholas Terrace, New York, New York, United States, NY 10031, Virtual: https://events.vtools.ieee.org/m/447321

Cake Celebration IEEE ComSoc Award – Thomas M Willis, PhD and Eta Kappa Nu – Irwin Gerszberg at AT&T Labs

AT&T Labs 200 S Laurel Ave, Middletown

[] Join the Cake Celebration at 2pm. Congratulate Tom Willis and Irwin Gerszberg. Tom has been selected for the IEEE Communications Society Award for Public Service in the Field of Telecommunications. Irwin has been selected to be inducted into the IEEE Eta Kappa Nu HKN. Please arrive early to go through Security. Please feel free to share your Congratulations by replying to this Event Notice. Agenda: 1:50pm Arrive at Security 2:00pm Cake AT&T Labs, 200 South Laurel Ave, Middletown , New Jersey, United States