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
jitter News
X-ray Camera Has Image Stabilizer
BERLIN, Jan. 8, 2014 — Making a firm connection between an x-ray lens and the nanoscale object to be imaged improves the imaging of low-contrast or moving nano-objects and could lead to new insights into dynamic nanoscale processes, such as the fastest magnetic switching in data storage, says a team in Germany.
Squeezed light measures moving target
TOKYO – A novel quantum mechanical squeezing technique that precisely tracks the phase of optical waveforms in motion has broken the standard limits for ultraprecise measurement by exploiting quantum lightwaves in a different way. In optical communications,...
Moving Target Measured with Squeezed Light
TOKYO, Sept. 24, 2012 — A novel quantum mechanical squeezing technique that precisely tracks the phase of optical waveforms in motion has broken the standard limits for ultraprecise measurement by exploiting quantum lightwaves in a different way.
(3 results found)
June 2024
Subscribe
Advertise
Issue Library
Latest Products
Elevator Rotary Stages
Optimal Engineering Systems Inc.
RGB-IR Stereo Camera
Leopard Imaging Inc.
Infrared Imaging Module
Teledyne FLIR
Modular Laser Processors
Luxinar Ltd.
4-Axis Receiver
Pinpoint Laser Systems
800G DR8 Optical Transceivers
Hyper Photonix
Compact Oscilloscope
Rohde & Schwarz GmbH & Co. KG
Cooled Automation Camera
Teledyne FLIR
Marking Lasers
ALLTEC Angewandte Laserlicht Technologie GmbH, FOBA Laser Marking + Engraving
UV-Vis Spectrophotometer
DeNovix Inc.
Features
Chip-Scale Visible Sources Aim to Release Quantum Technology from the Lab
Photonics Spectra
, Jun 2024
Photonics Charts Its Course in Helping Athletes Reach Peak Performance
Photonics Spectra
, Jun 2024
Reflective Optics Improve in Durability as Applications Increase
Photonics Spectra
, Jun 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.