Physics Today
Jump to Content
Increase text size Decrease text size
  • Sign In
  • View Items in Cart View Cart
  • Advanced
  • Keyword
 
  • Home
  • Print Edition
  • Daily Edition
    • News Picks
    • The Dayside
    • Physics Update
    • Singularities
    • Points of View
    • Politics and Policy
    • Science and the Media
    • Obituaries
    • We Hear That
    • Events Calendar
  • Advertising
  • Buyer's Guide
  • About us
    • Our mission
    • Our people
    • American Institute of Physics
    • Member societies
    • Register
    • Subscribe
    • Submit content
    • Marketing reprints
    • Rights and permissions
    • Help/FAQ
    • Change mailing address
    • Contact us
  • Jobs
    • Job Seeker Login
    • Search Jobs
    • Post Resumes
    • Career Resources
    • For Employers
    • Success Stories
    • Resume Templates
    • About Us
    • Advertising
    • Display Advertising
    • Employer Resources
    • Banner Advertising
    • Security Tips
Follow us: Facebook    Twitter    rss    E-mail alert
  • Table of contents
  • Past issues

yellow star Featured Jobs

  • Search jobs
  • Post jobs
issues and events

First Light for Keck Interferometer

May 2001 page 28
Observing in tandem: The Keck telescopes now see in stereo. Photocredit: Keck Observatory
A faint star in the constellation Lynx was the first object observed by astronomers using the two newly linked, 10-meter Keck telescopes on Mauna Kea in Hawaii. The world's largest optical interferometer has the resolving power of an 85-meter telescope. Interferometers have existed for years in radio astronomy, but the technology required to link large-scale optical telescopes has only recently been developed (see Physics Today May 1995, page 42*). Eventually four 1.8-meter outrigger telescopes will be added to the interferometer, increas ing its resolving power to 135 meters.

The light from the two telescopes is collected in an underground tunnel for analysis. In that tunnel, a series of mirrors is adjusted so that the optical paths at the midpoint are equal to within a nanometer. Tests on the Lynx star reveal that the linked telescopes can accurately track the star for as long as 10 seconds.

Many of the techniques used with the Keck interferometer were adapted from the Palomar Testbed Interferometer in California, says Mark Colavita of NASA's Jet Propulsion Laboratory. "We're all pretty excited to have met this milestone."

Testing will continue for the next several months. Limited scientific research, including the search for extrasolar planets, is expected to begin this fall.

Paul Guinnessy

Physics Today Reference
May 1995, page 42
  • Article Tools
  • Enlarge text   Enlarge text
  • Shrink text   Shrink text
  • Comment on this articleWrite a letter to the editor
  • Free this month
  • Epitaxially Self-Assembled Quantum Dots
  • Helium Joins Family of Gaseous Bose-Einstein Condensates
  • Dropout Rate among Chinese Physics PhD Students Seems High; Community Considers Why
  • New Books
  • Letters
  • Most popular articles
  • Gedanken experiment: Levitate a physics sitcom?
    Points of View
  • Nanoplasmonics: The physics behind the applications
    February 2011
  • Half-quantum vortices
    Physics Update
  • Quantum criticality
    February 2011

 



SERVICES
Physics Today Jobs
Physics Today Buyers Guide
Event Calendar
Obituaries 		DAILY EDITION
The Dayside
News Picks
Science in the Media
Politics & Policy
Singularities
Physics Update
Points of View
 THE MAGAZINE
This month in print
Institutional subscriptions
Information for advertisers		 READER SERVICE
Register
Sign in
Subscribe
Email alert		 MORE INFO
FAQ
Contact us
About Physics Today
Privacy Policy
Marketing reprints
Rights and Permissions

Copyright © by the American Institute of Physics - All rights reserved

Find articles by AUTHORNAME

This PublicationThis Publication
ScitationScitation
SPINSPIN
ScitopiaScitopia
Google ScholarGoogle Scholar
PubMedPubMed