Sentences with phrase «d photonic crystals»
A team from the Massachusetts Institute of Technology (MIT) led by Minghao Qi describe a new method for introducing precise defects into 3 - D photonic crystals, the type of structures that will be necessary for optical quantum information processing.
https://www.scientificamerican.com/
A second report in the current issue of the journal Science describes a 3 - D photonic crystal, which emits light at optical communications wavelengths, manufactured using a different approach.
Not exact matches
Zheng Wang and colleagues at the Massachusetts Institute of Technology have made what's known as a photonic crystal from an array of ferrite rods.
García - Garibay hopes to design crystals that take advantage of properties of light, and whose applications could include advances in communications technology, optical computing, sensing and the field of photonics, which takes advantage of the properties of light; light can have enough energy to break and make bonds in molecules.
Physicists have only recently devised comparable materials, called photonic band - gap crystals, and are now exploring their use in phone switches, solar cells, and antennas.
«Being able to create highly functional photonic crystals by low - cost techniques is important for commercial applications, and I believe that the type of flexible and scalable technology demonstrated here has a great future.»
Inkjet printing of photonic crystals onto a surface is cheaper, but previous efforts have struggled to integrate responsive photonic crystal inks into such a system.
To emulate this, the team made their photonic crystal ink using mesoporous silica nanoparticles, which have a large surface area and strong vapor adsorption capabilities that can be precisely controlled.
«Professor Soljačić's group has a track record of rapidly converting new science into creative devices with industry applications, and I am looking forward to seeing how Weyl photonics crystals evolve.»
«This is an interesting development, not just because Weyl points have been experimentally observed, but also because they endow the photonics crystals which realize them with unique optical properties,» says Ashvin Vishwanath, a professor of physics at the University of California at Berkeley who was not involved in this research.
Brown and Parker are now working on making the photonic crystal out of silicon, gallium arsenide or indium phosphide, which would allow them to integrate the antenna and electronics on the same chip.
American researchers have now used a photonic crystal as a reflector for a miniature microwave antenna which could one day be fabricated on a single chip along with control electronics.
Photonic crystals are periodically arranged nanostructures which have the ability to reflect, guide and confine light.
EPFL scientists have now fabricated and experimentally tested a silicon - based «photonic crystal nanocavity» (PCN) that requires an unprecedentedly low amount of energy to operate as a switch.
Lotsch and her team have now developed photonic crystals based on nanosheets of phosphatoantimonic acid.
Chemists at Ludwig - Maximilians - Univeristaet (LMU) in Munich have fabricated a novel nanosheet - based photonic crystal that changes color in response to moisture.
LMU chemists have developed a photonic crystal from ultrathin nanosheets which are extremely sensitive to moisture.
Dharanipathy UP, Minkov M, Tonin M, Savona V, Houdré R. High - Q silicon photonic crystal cavity for enhanced optical nonlinearities.Applied Physics Letters 08 September 2014.
The tunability of the photonic band gap of photonic crystals has attracted a significant attention in the last decades, with applications in sensing, lighting, and displays.
Single - crystal thiophene - phenylene (TPCO) and furan - phenylene co-oligomers (FPCO) have a great potential for the application in optoelectronics and photonic devices, since they combine high luminescence and efficient charge transport.
Resume: Single - crystal thiophene - phenylene (TPCO) and furan - phenylene co-oligomers (FPCO) have a great potential for the application in optoelectronics and photonic devices, since they combine high luminescence and efficient charge transport.