Register
Sign In
Subscribe
Advertise
Publications
Photonics Spectra
BioPhotonics
Vision Spectra
Photonics Showcase
Photonics Buyers' Guide
Photonics Handbook
Photonics Dictionary
Newsletters
Bookstore
News & Features
Latest News
Latest Products
Features
All Things Photonics Podcast
By Technology
Lasers & Light Sources
Optics
Materials & Coatings
Imaging
Sensors & Detectors
Test & Measurement
Integrated Photonics
Spectroscopy
Biophotonics
Machine Vision
Marketplace
Supplier Search
Product Search
Career Center
Webinars & Events
Webinars
Photonics Media Virtual Events
Industry Events Calendar
Resources
White Papers
Videos
Contribute an Article
Suggest a Webinar
Submit a Press Release
Subscribe
Advertise
Become a Member
Publications
Photonics Spectra
BioPhotonics
Vision Spectra
Photonics Showcase
Photonics Buyers' Guide
Photonics Handbook
Photonics Dictionary
Newsletters
Bookstore
News & Features
Latest News
Latest Products
Features
All Things Photonics Podcast
By Technology
Lasers & Light Sources
Optics
Materials & Coatings
Imaging
Sensors & Detectors
Test & Measurement
Integrated Photonics
Spectroscopy
Biophotonics
Machine Vision
Marketplace
Supplier Search
Product Search
Career Center
Webinars & Events
Webinars
Photonics Media Virtual Events
Industry Events Calendar
Resources
White Papers
Videos
Contribute an Article
Suggest a Webinar
Submit a Press Release
Subscribe
Advertise
Become a Member
Register
Sign In
submit press release
quantum systems News
Gaining Nanoscale Control over Quantum Systems
OAK RIDGE, Tenn., April 9, 2018 — Scientists at Oak Ridge National Laboratory (ORNL) and Vanderbilt University have developed methods to help control the “leaky,” dissipative behavior inherent in quantum systems and materials. To do so, they examined the quantum nature of nanostructures. ORNL researcher Eugene Dumitrescu had previously explored the need for precise control over nanoscale energy transfer to enable long-lived entanglement (Physical Review A, doi:10.1103/PhysRevLett.119.110604). “Our goal
Ultrathin Materials Combo in QD Enables Tunable Quantum Systems
VIENNA, March 21, 2018 — A new type of quantum dot (QD) has been developed that allows for more accurate and more widely tunable energy levels of confined electrons. The advance in QD technology combines graphene (a conductive single atomic layer of carbon atoms) and...
Qubits’ Quantum State Controlled by Laser Light
SANTA BARBARA, Calif., May 3, 2013 — The quantum state of a single atomic-sized defect in diamond — known as the nitrogen-vacancy (NV) center — can be manipulated with laser light, providing more unified control and versatility than conventional processes. The discovery opens up the...
Laser Theoretically Forms Corkscrews of Light
HERTFORDSHIRE, England, June 12, 2012 — Laser beams formed into dark helices, or corkscrews of light, have considerable advantages over their commonly considered bright cousins for applications such as lithography, particle trapping and particle transport, a theoretical investigation...
Efficient time-reversed light pulses developed
LONDON – Physicists have taken advantage of the properties of periodic systems to efficiently time-reverse ultrashort electromagnetic pulses for applications in medical ultrasound, optical communications, superlensing, ultrafast plasmonics and biological...
Ignacio Cirac Wins Catalan Culture Award
GARCHING, Germany, April 23, 2010 — Professor Ignacio Cirac, director at the Max Planck Institute of Quantum Optics and leader of the Theory Division, has been honored with the National Culture Award from Catalonia (Premi Nacional de Pensament i Cultura Científica). Born in the...
UV Pulses for Quantum Computing
MUNICH, Germany, Feb. 11, 2010 – Photons are promising candidates for investigating quantum systems. German researchers demonstrated a new method for generating intense, ultrashort light pulses in the ultraviolet...
Quantum Signatures of Chaos
TUCSON, Ariz., Oct. 9, 2009 – No one has produced experimental evidence that chaos occurs in the quantum world – the world of photons, atoms, molecules and their building blocks – until now. In a series of experiments, professor Poul Jessen and a group at the University of...
Device Filters Photons
BRISTOL, UK, Jan. 23, 2009 – Quantum technologies just got a boost from a recent demonstration of an optical device that filters two particles of light (photons) based on the correlations between their polarization that are allowed only in the quantum world. This...
(9 results found)
May 2024
Subscribe
Advertise
Issue Library
Latest Products
AI SoCs
Ambarella Inc.
AI Vision Development Kit
Prophesee SA
Industrial Automation Solutions
Zebra Technologies Inc.
High-Power Supercontinuum Laser
SuperLight Photonics BV
Twin Table Laser System
eurolaser GmbH
Measurement Vision System
Bowers Group
Smart Camera Solutions
Pekat Vision
MicroLED Sputtering System
Singulus Technologies AG
Radiometric Camera Platform
Teledyne DALSA, Machine Vision OEM Components
Quantum Dot SWIR Sensor
Quantum Solutions
Features
Rare-Earth Doped Fibers Deliver Critical Elements to Dynamic Systems
Photonics Spectra
, May 2024
Bottlenecks in Process and Production Hinder Micro-LED Adoption
Photonics Spectra
, May 2024
Beam Deflection Units Increase the Efficiency of Laser Powder Bed Fusion
Photonics Spectra
, May 2024
Explore Our Content
News
Features
Latest Products
Webinars
White Papers
All Things Photonics Podcast
Videos
Our Summits & Conferences
Industry Events
Bookstore
Join Our Community
Subscribe
Advertise
Become a member
Sign in
Contribute a Feature
Suggest a Webinar
Submit a Press Release
Mobile Apps
About Us
Our Company
Our Publications
Contact Us
Career Opportunities
Teddi C. Laurin Scholarship
Terms & Conditions
Privacy Policy
California Consumer Privacy Act (CCPA)
©2024 Photonics Media
100 West St.
Pittsfield, MA, 01201 USA
[email protected]
We use cookies to improve user experience and analyze our website traffic as stated in our
Privacy Policy
. By using this website, you agree to the use of
cookies
unless you have disabled them.