Sentences with word «nanophotonics»
These results provide the first foray into natural hyperbolic materials as building blocks for nanophotonic devices in the mid-infrared to terahertz (THz) spectral range.
sciencedaily.com
The result: a successful research career in nanophotonics that spans the divide between academia and industry.
He adds that the next step is to use voltage to «tune the color» of the emitted photons, which can make it possible to integrate these quantum dots with nanophotonic devices.
The results are reported in a paper published online by the Journal of Nanophotonics on May 21.
Further discoveries found these breakthroughs could have an impact in areas such as enhanced infrared or molecular spectroscopy, improved functionality for nanophotonic circuits and devices for use in infrared cameras, detectors and weapons guidance systems, and tailored thermal emission sources.
The compact electricity / light signal converter presented now meets the requirements of the next generation of computers that combine electronic components with nanophotonic waveguides.
A cross-sectional view of an IBM silicon nanophotonics chip combining optical and electrical circuits.
Further out, we expect to use the nanomechanics and nanophotonics on a given chip to achieve dual - mode sensing — that is, an optical spectrometer and a resonant mass sensor.
The scientists used CMOS - compatible silicon nanophotonic waveguides on a silicon - on - insulator chip.
«World record in silicon integrated nanophotonics: More energy efficiency in the data communication.»
The device also has a compact footprint and is built on a CMOS - compatible nanophotonic integrated platform.
Researchers are also investigating such nanophotonic devices as nanoscale lasers, quantum dots for solar cells and optical materials for quantum computing.
Nanophotonics research by materials scientist Jennifer Dionne could lead to improved drugs, cancer tests or invisibility cloaks.
«The proposed metadevice integrated with novel transition materials represents a major step forward by providing a universal approach to creating self - sufficient and highly versatile nanophotonic systems,» the researchers said in today's (Oct. 27) issue of Nature Communications.
Dionne, now at Stanford University, studies nanophotonics, the way that light interacts with matter on very small scales.
Nanophotonic rare - earth quantum memory with optically controlled retrieval.
In addition, postdoctoral associate Gustavo Wiederhecker and his Cornell University Nanophotonics Group colleagues achieved static displacement — that is, they were able to bend and hold their structure in place rather than causing it to move back and forth.
The layered nature also offers an advantage over some other single - photon emitters for feasible and effective integration into nanophotonic circuits.
The team solved the problem by surrounding the hot object with special nanophotonic structures that spectrally filter the emitted light, meaning that they let the light reflect or pass through based on its color (i.e. its wavelength).
Using engineered nanophotonic materials the team was able to strongly suppress how much heat - inducing sunlight the panel absorbs, while it radiates heat very efficiently in the key frequency range necessary to escape Earth's atmosphere.
This cooperation between nanophotonics, nanochemistry and nanophysics research has provided the tools to manipulate and analyze nanoparticles in ways that have, until now, been beyond our reach.
Quantum dots in atomically thin semiconductors could not only provide a framework to explore the fundamental physics of how they interact, but also enable nanophotonics applications, the researchers say.
The discovery brings the worlds of spintronics and nanophotonics closer together and might lead to the development of an energy - efficient way of processing data, in data centres, for example.
We use the power of DNA self - assembly to build and test nanophotonic devices such as plasmonic waveguides for application in optical near - field communication, or for medical diagnostics and therapeutics.
She chaired and served on numerous committees including the Micro and Nanophotonics Subcommittee of CLEO (chair, 2006 - 2009).
Joint American - Belarusian Laboratory for Fundamental and Biomedical Nanophotonics, Rice University, 6100 Main Street, Houston, TX, 77005, USA; 2.
Researchers have combined these structures to create nanophotonic counterparts of integrated circuits, as well as more efficient solar cells, ultra-small lasers and sensors, and more powerful optical microscopes.
The innovation, the latest from Rice's Laboratory for Nanophotonics (LANP), is described online in a paper in the American Chemical Society journal Nano Letters.
Building upon several years of research, Zheng and his team from the Cockrell School of Engineering have developed opto - thermoelectric nanotweezers (OTENT) that will help lead to a greater understanding of matter and biological systems and open a range of possibilities for fundamental and technical innovation in nanophotonics — the study of light - matter interaction on the nanometer scale.
This could enable frequency selective operation and nanophotonic circuits, as well as provide an operational material for mid-infrared imaging of nanoscale objects.
The current study by researchers from the Metamaterials laboratory, led by Dr. Pavel Belov, principal researcher and head of the Department of Nanophotonics and Metamaterials at ITMO University, exploits the same basic principle, but with two major modifications that helped enhance the wireless power transfer efficiency.
Silicon photonics, inventor of GHz silicon modulator, novel on - chip nanophotonics devices, novel micron - size photonic structures for light manipulation, light confining structures to slow down, enhance, and manipulate light
«A lot of groups are starting to learn how to vibrate structures using light,» says Cornell physicist Michal Lipson, a study co-author and the leader of the nanophotonics group.
James Chon, a nanophotonics scientist at Swinburne University of Technology in Australia, demonstrated that data could be stored in five dimensions, enabling more than a terabyte of information to be packed onto a single DVD - size disk.
«A nanophotonic comeback for incandescent bulbs?
A nanophotonic incandescent light bulb demonstrates the ability to tailor light radiated by a hot object.
«In nanophotonics, applied and fundamental research go hand in hand because a deep understanding of the fundamental physics is what allows us to optimize particle design.
In a find that could transform some of the world's most energy - intensive manufacturing processes, researchers at Rice University's Laboratory for Nanophotonics have unveiled a new method for uniting light - capturing photonic nanomaterials and high - efficiency metal catalysts.
Co-researcher Dr Mohsen Rahmani said the ANU team's achievement was a big milestone in the field of nanophotonics, which involves the study of behaviour of light and interaction of objects with light at the nano - scale.
In a research article «3D Nano - scale Imaging by Plasmonic Brownian Microscopy» published today in Nanophotonics, the team around Prof. Xiang Zhang from the University of California in Berkeley demonstrate a method with stunning properties.
This development is part of a thematic research effort between Northrop Grumman, NG Next Basic Research and USC known as the Northrop Grumman Institute of Optical Nanomaterials and Nanophotonics (NG - ION2).
In a study published July 13 in Nature Communications, scientists from Rice's Laboratory for Nanophotonics (LANP) describe a new method that solar - panel designers could use to incorporate light - capturing nanomaterials into future designs.
For sustained contributions to the field of biophotonics, spanning over thirty years and encompassing outstanding research, technology development, clinical translation and training and education, in the areas of light dosimetry, photodynamic therapy fluorescence and Raman endoscopy, microscopy and nanophotonics
OCTOBER, 2016 JCAP Director, Harry Atwater, was named an APS fellow for pioneering contributions to plasmonics and nanophotonics.
Lyncée Tec will take part to Conference on Optical MEMS and Nanophotonics (OMN 2018), which will be held in Lausanne, Switzerland.