Sentences with phrase «new photonics»
The governor bought all of his top advisors to Rochester to hold an event he called Capital for a day, and announced the creation of a new photonics headquarters.
http://nynow.wmht.org/
Biden joined political, business and education leaders at SUNY Polytechnic at Canal Ponds to announce details of the new photonics manufacturing center.
Schumer says that Rochester, with its photonics cluster, RIT, the University of Rochester and Eastman Business Park, would be well qualified to host this new photonics facility as would Albany.
ROCHESTER, N.Y. — Vice President Joe Biden was in Rochester on Monday to announce a new photonics manufacturing center.
U.S. Rep. Louise Slaughter, D - Fairport, often takes credit for a new photonics manufacturing institute coming to Rochester.
New York Senators Charles Schumer and Kirsten Gillibrand and Rochester area Congresswoman Louise Slaughter say that a proposal to have a new photonics institute in Rochester has advanced to the final round of applications.
Financial support for the new photonics institute comes from Department of Defense funds that existed before Congress approved the Revitalize American Manufacturing and Innovation Act of 2014.
Since the discovery of the Nobel Prize winning material graphene, many new nanomaterials promise to deliver exciting new photonic and optoelectronic technologies.
In comparison with other vapor sensors based on nanosheets, the new photonic architecture displays markedly increased response times, higher sensitivity and long - term stability.
The Xbox controllers are simply there for operating the two new photonic masts, the submarine's non-penetrating digital camera periscopes.
Not exact matches
The USS Colorado also has a new feature: An Xbox gaming system controller used to guide its photonics masts, which replaced periscopes.
Hochul said her pitch is a mixture of explaining some of the new industry clusters that officials are fueling upstate — photonics in Rochester, solar production in Buffalo — as well as telling companies that taxes are lower.
Among Slaughter's most recent legislative accomplishments in the Rochester area were helping to bring high - tech companies to Eastman Business Park, helping to create the federal photonics institute that led to AIM Photonics, and securing federal funding for the new Rochester train station and filling in the Inner Loop.
Biden even adopted a favorite Cuomo talking point when comparing the investment in photonic research and development to other massive infrastructure and technology breakthroughs, saying it is akin to the construction of the Erie Canal in New York under DeWitt Clinton.
President Obama on Friday announced a new competition to award more than $ 200 million in public and private investment to create a photonics manufacturing institute.
During a debate, Gates Town Supervisor Mark Assini credited a congressman from another district in New York State for securing the photonics funding.
The local federal representatives say that with its strong background in photonics, Rochester would be a logical place to host the new institute.
IDEX Health & Science, an optics and photonics firm, will be moving its facilities to Henrietta, creating up to 34 new full - time jobs and retaining 186 jobs in the state.
To make upstate New York competitive, Cuomo touts the area's high tech and clean energy companies such as SolarCity in Buffalo which manufactures solar panels and the photonics center in Rochester which develops technology for smart phones, laptops and lighting.
Since that December day in 2012, when he and Cuomo administration officials described to a reporter the role that Albany Molecular Research Inc. would play in anchoring the Buffalo Niagara Medical Campus, SUNY Poly has continued to be a partner in other upstate technology initiatives, including the new $ 600 million photonics research initiative announced earlier this summer in Rochester and the plans for a $ 2 billion analog chip fabrication facility at SUNY's Poly Marcy Nanocenter complex in Utica.
Western New York already has about 100 companies focused on optics and photonics, and Rochester has a long history with related industries going back to Kodak and Bausch and Lomb.
«New technique to help produce next generation photonic chips.»
Researchers from the University of Southampton have developed a new technique to help produce more reliable and robust next generation photonic chips.
Now a team has come up with a new way to sculpt photonic materials in three dimensions — a key step on the way to ultrasmall lasers and computer chips that calculate with photons.
The overhead view of a new beamsplitter for silicon photonics chips that is the size of one - fiftieth the width of a human hair.
In 1999, Dr. Agranat co-founded Trellis Photonics to develop a new concept in optical computing and photonic switching: Electroholography - a patented method to interconnect electronic processors by holographic devices.
«Making the switch to polarization diversity: A new silicon - photonic chip paves the way to truly integrated polarization - insensitive switches.»
The new device, referred to technically as a «fully integrated non-duplicate polarization - diversity silicon - photonic switch,» consists of a single 8 x 8 grid of 2 x 2 element switches.
In work they will present at the Optical Fiber Communication Conference and Exhibition (OFC), held 19 - 23 March in Los Angeles, California, USA, researchers with Japan's National Institute of Advanced Industrial Science and Technology (AIST) describe the development of a new kind of an integrated optical switch, made using silicon photonics technologies in highly efficient ways.
Scientists at Photonics Research Ontario (PRO) not only conduct basic photonics and biophotonics research but also provide a service to industry and academia through three state - of - the - art facilities (Photonics Facility, Biophotonics Facility, and the new Micromachining Facility).
«You make both parts — the detectors and the photonic chip — through their best fabrication process, which is dedicated, and then bring them together,» explains Faraz Najafi, a graduate student in electrical engineering and computer science at MIT and first author on the new paper.
«Because ultimately one will want to make such optical processors with maybe tens or hundreds of photonic qubits, it becomes unwieldy to do this using traditional optical components,» says Dirk Englund, the Jamieson Career Development Assistant Professor in Electrical Engineering and Computer Science at MIT and corresponding author on the new paper.
It will open a completely new set of applications, such as optical communications and sensing at a scale below one nanometer,» said ICREA Professor Frank Koppens at ICFO — The Institute of Photonic Sciences in Barcelona, Spain, who led the research.
Photonic chip functionality is usually hard - wired by design, however reconfigurable optical elements would allow light to be routed flexibly, opening up new applications in programmable photonic cPhotonic chip functionality is usually hard - wired by design, however reconfigurable optical elements would allow light to be routed flexibly, opening up new applications in programmable photonic cphotonic circuits.
The findings, he says, «provide further evidence that application of novel photonic designs to old problems can lead to potentially new devices.
Such insights may eventually lead to new kinds of photonic and electronic materials and devices, driving the technologies of tomorrow.
That promise is why Bucshon, normally a fierce critic of the administration's social and economic policies, joined Mike Pence, the state's Republican governor, on an airport tarmac in southern Indiana to greet the president when he flew in to tout the new DOD - backed center on integrated photonics.
PIC technology offers a way to integrate photonic components — such as the lasers and detectors used by the new quantum random generator — onto a chip with a small footprint and low power consumption.
Although this method was developed with upconversion nanoparticles, the researchers believe their new «direct - doping» approach can be generalised to other nanoparticles with interesting photonic, electronic and magnetic properties.
The question is — and it's a question at this point — can we learn from these novel biophotonic mechanisms that have evolved over millions of years of natural selection new approaches to making tunable and switchable photonic materials to more efficiently encode, transmit, and decode information via light?»
One of the great opportunities this study creates is the ability to produce multi-functional inorganic materials such as metals and ceramics to explore photonic and energy harvesting properties in these new materials
Rice University photonics researchers have unveiled a new nanoparticle amplifier that can generate infrared light and boost the output of one light by capturing and converting energy from a second light.
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.
«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.»
Muševic says the experiments could lead to a new method of making photonic crystals — semiconductors that process light instead of electricity.
Philipp Hauke and Peter Zoller from the Department of Theoretical Physics at the University of Innsbruck and the Institute for Quantum Optics and Quantum Information (IQOQI) at the Austrian Academy of Sciences in collaboration with Markus Heyl from the Technical University of Munich, and Luca Tagliacozzo from ICFO — The Institute of Photonic Sciences have found a new way to detect certain properties of many - particle entanglement independent of the size of the system and by using standard measurement tools.
The new technique could also be used to create nanoscale «inkjet printers» for printing electronics or biological cells, or to create antennas or photonic components.
Researchers from North Carolina State University have developed a new lithography technique that uses nanoscale spheres to create three - dimensional (3 - D) structures with biomedical, electronic and photonic applications.
This enabled the production of new functional photonic and optoelectronic devices by inkjet printing with excellent print quality and uniformity — just like the printing of intricate graphics or photographs on paper.
A team led by Eli Yablonovitch of Bellcore, the research arm of the American regional telephone companies based in Redbank, New Jersey, made the first photonic crystal last year by drilling holes in material that is transparent to microwaves.