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Giant Second-Harmonic Generation in Bulk Monolayer MoS2 Thin Films (Case No. 2024-186)
Summary: UCLA researchers in the department of Chemistry and Biochemistry have developed a method to control electron density in molybdenum disulfide (MoS2) thin films that can be used to improve optical material characteristics. Background: Second harmonic generation (SHG) is an optical process in which light interacts with a nonlinear material...
Published: 11/19/2024
|
Inventor(s):
Xiangfeng Duan
,
Yu Huang
,
Boxuan Zhou
Keywords(s):
Adaptive Optics
,
Algorithm Optical Coherence Tomography
,
all-optical diffractive computing
,
all-optical transformation
,
Atomic Force Microscopy Optical Tweezers
,
bulk monolayer
,
Composite Material
,
Composite Materials
,
Dispersion (Optics)
,
Electro-Optics
,
Focus (Optics)
,
Functional Materials
,
Infrared Electromagnetic Spectrum Dispersion (Optics)
,
linear optics
,
material characterization
,
Materials
,
molybdenum disulfide (MOS2)
,
monolayer
,
Nanomaterials
,
Near-Field Scanning Optical Microscope
,
nonlinear dynamics
,
Nonlinear Optics
,
non-linear optics
,
Nonlinear Optics Molecular Dynamics
,
Optical Coherence
,
Optical Communication
,
Optical computing
,
optical implementation
,
Optical networks
,
optical processor
,
optical transmission
,
Optics Parabolic Reflector Curved Mirror
,
Optoelectronic materials
,
reverse engineered optical system
,
second harmonic generation
,
start to end optics design
,
Surgical Instrument Optical Coherence Tomography
Category(s):
Materials
,
Materials > Functional Materials
,
Optics & Photonics
,
Chemical
,
Chemical > Instrumentation & Analysis
Universal Linear Intensity Transformations Using Spatially-Incoherent Diffractive Processors (Case No. 2023-192)
Summary: UCLA researchers in the Department of Electrical and Computer Engineering have developed a novel platform technology to facilitate the design of all-optical visual processors, which can be used to perform advanced computational tasks at the speed of light. Background: Information processing via light is a cutting-edge field among optics...
Published: 4/5/2024
|
Inventor(s):
Aydogan Ozcan
,
MD Sadman Rahman
,
Xilin Yang
Keywords(s):
Adaptive Optics
,
Algorithm Optical Coherence Tomography
,
all-optical diffractive computing
,
all-optical transformation
,
Artifical Intelligence (Machine Learning, Data Mining)
,
Artificial Intelligence
,
Atomic Force Microscopy Optical Tweezers
,
computational imaging
,
deep diffractive network
,
Deep Learning
,
Deep learning-based sensing
,
diffractive processor
,
Dispersion (Optics)
,
Electron Microscope
,
Electro-Optics
,
fluorescence microscopy
,
Focus (Optics)
,
Infrared Electromagnetic Spectrum Dispersion (Optics)
,
interference processor
,
large language model (LLNMs)
,
linear optics
,
linear transformations
,
Machine Learning
,
Microscope
,
Microscopy
,
Microscopy And Imaging
,
Near-Field Scanning Optical Microscope
,
neural networks
,
Nonlinear Optics
,
non-linear optics
,
Optical Coherence
,
Optical Communication
,
Optical computing
,
Optical Fiber Copper Wire And Cable
,
optical implementation
,
Optical Microscope
,
Optical networks
,
optical processor
,
optical transmission
,
Optics Parabolic Reflector Curved Mirror
,
phase-only diffractive network
,
reverse engineered optical system
,
Software
,
Software & Algorithms
,
Software Development Tools
,
spatially-incoherent light
,
start to end optics design
,
Surgical Instrument Optical Coherence Tomography
,
three dimensional imaging
,
visual computing
,
Waferscale Processors
Category(s):
Optics & Photonics
,
Optics & Photonics > Microscopy
,
Platforms
,
Software & Algorithms > Image Processing
,
Electrical
,
Electrical > Signal Processing
,
Electrical > Computing Hardware
2022-286 Optical Pulse Temporal Shaping Through Nonlinear Mixing
Summary: UCLA Researchers in the Department of Electrical and Computer Engineering have developed an innovative technique that can tailor spectral-temporal optical pulses for electron sources, advanced spectroscopic techniques, material processing, and proton-based cancer therapies. Background: Optical laser pulses with short wavelength and picosecond...
Published: 11/8/2023
|
Inventor(s):
Sergio Carbajo Garcia
,
Randy Lemons
,
Charles Durfee
Keywords(s):
Adaptive Optics
,
bunch length
,
conversion efficiency photoelectric
,
Dispersion (Optics)
,
electron emittance
,
Electro-Optics
,
Focus (Optics)
,
gaussian pulses
,
Infrared Electromagnetic Spectrum Dispersion (Optics)
,
Lens (Optics)
,
Nonlinear Optics
,
Nonlinear Optics Molecular Dynamics
,
Optics
,
Optics Parabolic Reflector Curved Mirror
,
Photoinjector
,
Prism (Optics)
,
temporal shaping
,
upconvert
Category(s):
Electrical
,
Electrical > Instrumentation
,
Software & Algorithms
,
Optics & Photonics
,
Electrical > Electronics & Semiconductors
2014-9AG Wide-Field Computational Imaging of Pathology Slides Using Lensfree On-Chip Microscopy
Summary: UCLA researchers in the Department of Electrical and Computer Engineering have developed a wide field-of-view (FOV) computational imaging method using lens-free on-chip microscopy to efficiently and cost-effectively scan biological samples such as pathology slides. Background: Wide field-of-view (FOV) and high-resolution imaging is crucial...
Published: 7/19/2023
|
Inventor(s):
Aydogan Ozcan
,
Alon Greenbaum
,
Yibo Zhang
,
Alborz Feizi
,
Wei Luo
Keywords(s):
4Pi Microscope
,
Adaptive Optics
,
Animal Imaging
,
Antenna (Radio) Flip Chip DisplayPort
,
Artificial Intelligence
,
Atomic Force Microscopy
,
Atomic Force Microscopy Insulator (Electricity)
,
Atomic Force Microscopy Optical Tweezers
,
Bright Field Microscopy
,
Cardiac Magnetic Resonance Imaging
,
Cell Counting/Imaging
,
Chipset
,
Confocal Microscopy
,
Cytopathology
,
Dark Field Microscopy
,
Dispersion (Optics)
,
Electron Microscope
,
Electro-Optics
,
Fluorescence Microscope
,
Fluorescence-Lifetime Imaging Microscopy Leading Lights
,
Focus (Optics)
,
Functional Magnetic Resonance Imaging
,
Histopathology
,
Hyperspectral Imaging
,
Imaging
,
Infrared Electromagnetic Spectrum Dispersion (Optics)
,
Lab-On-A-Chip
,
Lens (Optics)
,
Magnetic Resonance Imaging
,
Magnetic Resonance Imaging Carotid Artery Stenosis
,
Magnetic Resonance Imaging Hypoxia (Medical)
,
Magnetic Resonance Imaging Medical Physics
,
Magnetic Resonance Imaging Microangiopathy
,
Magnetic Resonance Imaging Pathology
,
Magnetic Resonance Imaging Spin Polarization
,
Magnetic Resonance Imaging Unmanned Aerial Vehicle
,
Medical Imaging
,
Medical Imaging Eyepiece
,
Microscale Chemistry
,
Microscope
,
Microscopy
,
Microscopy And Imaging
,
Molecular Imaging
,
Molecular Imaging Physics Of Magnetic Resonance Imaging
,
Molecular Imaging Ylide
,
Near-Field Scanning Optical Microscope
,
Network On A Chip
,
Neuroimaging
,
Neuropathology
,
Nonlinear Optics
,
Nonlinear Optics Molecular Dynamics
,
Optical Microscope
,
Optics
,
Optics Parabolic Reflector Curved Mirror
,
Phase-Contrast Imaging
,
Phase-Contrast Imaging Genomics
,
Prism (Optics)
,
Scanning Probe Microscopy
,
Scanning Tunneling Microscope
,
Serial Time-Encoded Amplified Microscopy
,
STED Microscopy
,
Stereo Microscope
,
Super Resolution Microscopy
,
System On A Chip
,
Transmission Electron Microscopy
Category(s):
Life Science Research Tools
,
Electrical
,
Electrical > Imaging
,
Life Science Research Tools > Microscopy And Imaging
,
Software & Algorithms
,
Software & Algorithms > Artificial Intelligence & Machine Learning
,
Diagnostic Markers
,
Diagnostic Markers > Targets And Assays
,
Medical Devices > Medical Imaging
2019-640-1 REFLECTIVE AXICON MANUFACTURING
SUMMARY: UCLA researchers in the Physics Department have developed a monolithic reflaxicon with the potential to be applied in multiple optical purposes. BACKGROUND: Axicon lenses have conical surfaces that can be used to transform a laser beam into ring-shaped distributions. Utilizing axicons in combination or with lenses allows a wide variety of...
Published: 7/19/2023
|
Inventor(s):
Keywords(s):
Beam Divergence
,
Focus (Optics)
,
Laser
,
Lens (Optics)
,
Medical Physics
,
Optics
,
Photonics
,
Transmittance
Category(s):
Medical Devices > Medical Imaging
,
Optics & Photonics