9,399 resources related to Optical resonators
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2020 IEEE International Symposium on Antennas and Propagation and North American Radio Science Meeting
The joint meeting is intended to provide an international forum for the exchange of information on state of the art research in the area of antennas and propagation, electromagnetic engineering and radio science
The Optical Fiber Communication Conference and Exhibition (OFC) is the largest global conference and exhibition for optical communications and networking professionals. For over 40 years, OFC has drawn attendees from all corners of the globe to meet and greet, teach and learn, make connections and move business forward.OFC attracts the biggest names in the field, offers key networking and partnering opportunities, and provides insights and inspiration on the major trends and technology advances affecting the industry. From technical presentations to the latest market trends and predictions, OFC is a one-stop-shop.
The world's premiere conference in MEMS sensors, actuators and integrated micro and nano systems welcomes you to attend this four-day event showcasing major technological, scientific and commercial breakthroughs in mechanical, optical, chemical and biological devices and systems using micro and nanotechnology.The major areas of activity in the development of Transducers solicited and expected at this conference include but are not limited to: Bio, Medical, Chemical, and Micro Total Analysis Systems Fabrication and Packaging Mechanical and Physical Sensors Materials and Characterization Design, Simulation and Theory Actuators Optical MEMS RF MEMS Nanotechnology Energy and Power
OECC/PSC is one of the biggest worldwide conference on the optical communication, interconnects, and switching technologies. The scope includes optoelectronic components and devices, optical systems, optical interconnects, transmission, and networking.
Science, technology and applications spanning the millimeter-waves, terahertz and infrared spectral regions
The IEEE Aerospace and Electronic Systems Magazine publishes articles concerned with the various aspects of systems for space, air, ocean, or ground environments.
Experimental and theoretical advances in antennas including design and development, and in the propagation of electromagnetic waves including scattering, diffraction and interaction with continuous media; and applications pertinent to antennas and propagation, such as remote sensing, applied optics, and millimeter and submillimeter wave techniques.
IEEE Antennas and Wireless Propagation Letters (AWP Letters) will be devoted to the rapid electronic publication of short manuscripts in the technical areas of Antennas and Wireless Propagation.
The theory, design and application of Control Systems. It shall encompass components, and the integration of these components, as are necessary for the construction of such systems. The word `systems' as used herein shall be interpreted to include physical, biological, organizational and other entities and combinations thereof, which can be represented through a mathematical symbolism. The Field of Interest: shall ...
Electrical insulation common to the design and construction of components and equipment for use in electric and electronic circuits and distribution systems at all frequencies.
Digest on Nonlinear Optics: Materials, Phenomena and Devices, 1990
Digest on Nonlinear Optics: Materials, Phenomena and Devices, 1990
IEEE Conference Record - Abstracts. 1991 IEEE International Conference on Plasma Science, 1991
2015 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO), 2015
Based on reported study of quantum squeezing on doubly clamped structure, we performed comprehensive investigation on graphene drum resonator. Two key criteria of achieving squeezing states, zero-point displacement uncertainty and squeezing factor of strained multilayer graphene drum resonator are studied. The research fills gap of quantum squeezing to drum resonator for implementing graphene-based nanoscale transducers with ultra-high sensitivity that can ...
IEEE Journal of Quantum Electronics, 1972
The maximized continuous TEM00output power and optimum output mirror transmission are calculated for a four-level laser assuming spatially uniform pumping of the laser medium. The results are expressed in simple closed forms that depend on the TEM00mode radius, the radius of the gain medium, the absorbed pump power, the threshold absorbed pump power, and the optical loss of the laser ...
High Efficiency SHG in Heterogeneously Integrated GaAs Ring Resonators - Lin Chang - Closing Ceremony, IPC 2018
Multi-Level Optimization for Large Fan-In Optical Logic Circuits - Takumi Egawa - ICRC 2018
IMS 2011 Microapps - Ultra Low Phase Noise Measurement Technique Using Innovative Optical Delay Lines
Multi-Level Optical Weights in Integrated Circuits - IEEE Rebooting Computing 2017
Spatial-Spectral Materials for High Performance Optical Processing - IEEE Rebooting Computing 2017
An Energy-efficient Reconfigurable Nanophotonic Computing Architecture Design: Optical Lookup Table - IEEE Rebooting Computing 2017
On-chip Passive Photonic Reservoir Computing with Integrated Optical Readout - IEEE Rebooting Computing 2017
X-band NMOS & CMOS Cross-Coupled DCO’s with “Folded” Common Mode Resonators - Run Levinger - RFIC 2019 Showcase
Demonstration of a Coherent Tunable Amplifier for All-Optical Ising Machines: IEEE Rebooting Computing 2017
Towards On-Chip Optical FFTs for Convolutional Neural Networks - IEEE Rebooting Computing 2017
An Integrated Optical Parallel Multiplier Exploiting Approximate Binary Logarithms - Jun Shiomi - ICRC 2018
An IEEE IPC Special Session with Kasia Balakier of UCL
Scalable and Reconfigurable Tap-Delay-Line for Multichannel Equalization - Ari Willner - Closing Ceremony, IPC 2018
Multiplication with Fourier Optics Simulating 16-bit Modular Multiplication - Abigail Timmel - ICRC 2018
Q&A with Bruce Kraemer: IEEE Rebooting Computing Podcast, Episode 24
IEEE Magnetics Distinguished Lecture - Mitsuteru Inoue
Optically Interconnected Extreme Scale Computing - Keren Bergman Plenary from the 2016 IEEE Photonics Conference
2013 IEEE Alexander Graham Bell Medal
Real-time Spectrogram Analysis of Continuous Optical Wavefields - José Azaña - Closing Ceremony, IPC 2018
Based on reported study of quantum squeezing on doubly clamped structure, we performed comprehensive investigation on graphene drum resonator. Two key criteria of achieving squeezing states, zero-point displacement uncertainty and squeezing factor of strained multilayer graphene drum resonator are studied. The research fills gap of quantum squeezing to drum resonator for implementing graphene-based nanoscale transducers with ultra-high sensitivity that can be potentially utilized to detect a variety of sensing targets, including atomic force, single biological molecule, and gravitational wave.
The maximized continuous TEM00output power and optimum output mirror transmission are calculated for a four-level laser assuming spatially uniform pumping of the laser medium. The results are expressed in simple closed forms that depend on the TEM00mode radius, the radius of the gain medium, the absorbed pump power, the threshold absorbed pump power, and the optical loss of the laser resonator.
We report on the first demonstration of electrothermally tunable graphene nanoelectromechanical resonators via Joule heating. We fabricate single-, bi- and tri-layer graphene resonators (up to 136MHz) to study electrothermal effects on resonance characteristics. The tri-layer graphene resonator exhibits frequency upshift from 9.5MHz to 26.1MHz by electrothermal heating, resulting in tuning range up to 180%. The device temperature is carefully verified via anharmonic frequency shift of Raman modes, exhibiting temperature elevation up to 600K in tri-layer graphene device with Joule heating. This work proves that electrothermal effects could broadly tune graphene resonators with high efficiency.
We show that lifetimes and emission patterns of the whispering gallery modes in asymmetric dielectric microlasers are strongly affected by chaos assisted tunneling, and develop the theory of this effect
In this paper, a transparent metamaterial (MTM) absorber in dual band application is proposed. The absorber is designed using on indium tin oxide (ITO) film for transparency. The unit cell of the proposed absorber consists of an electric LC (ELC) resonator and a ground plate, which are printed on opposite sides of the glass substrate. The ELC resonator comprises two symmetric triangular split ring resonators (TSRRs) for 8 GHz band and another two symmetric TSRRs for 12 GHz band. In low band, the absorber exhibits an absorption of 98.6 % and a full width at half maximum (FWHM) of 6.3 % at 8 GHz. In high band, the absorber exhibits an absorption of 98.2 % and a FWHM of 7.6 % at 12 GHz.
Novel highly efficient algorithm for the solution of 2-D problems of the wave scattering from homogeneous dielectric cylinders of arbitrary cross-sections is presented and its applications to simulate optical waveguide components based on dielectric resonators (DR's) are discussed. The algorithm developed is based on the concept of analytical regularization (semi-inversion) of the singular integral operators.
The goal of the paper is to study experimentally the auto-oscillating systems based on quasi-optical 3D cavity resonators similar to instable Bunimovich and Sinai billiards and to detect the microwave generation in such systems activated by a Gunn diode. The concept of using this unstable resonator as a part of an active oscillating system is based on the following. The high quality factor resonator serves as an oscillating system in microwave oscillators. An increase of the quality factor of an oscillatory circuit leads to the reduction of excitation threshold of the oscillator and the increase of its frequency stability.
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