Infrared free‐electron laser uses electrostatic accelerator

NOV 01, 1984

From the near ultraviolet to the near infrared—2000 Å to 25 microns—we have access to an abundance of coherent sources, some of them tunable over limited ranges. For the outer reaches of the optical spectrum—the far ultraviolet and the far infrared, where conventional laser sources offer very little—free‐electron lasers present a unique opportunity. The preceding story describes the promise of FEL harmonic frequency multiplication for the vacuum ultraviolet and extreme ultraviolet. At the other end of the spectrum, a novel, electrostatic‐accelerator‐based, broadly tunable, far‐infrared FEL at the University of California, Santa Barbara, began lasing at 400 microns two months ago.

This article is only available in PDF format

Physics Today is looking for a Senior Editor. Apply Now.

Related content

News

Article

FYI science policy briefs

January 16, 2026 10:38 AM

News

Article

The arXiv server to require English version with submissions

The availability of free translation software clinched the decision for the new policy. To some researchers, it’s anathema.

January 14, 2026 03:11 PM

News

Article

NASA’s next space telescope reaches assembly milestone

The Nancy Grace Roman Space Telescope will survey the sky for vestiges of the universe’s expansion.

January 12, 2026 11:26 AM

News

Article

A fundamental limit to how fast coherence can spread

An ultracold atomic gas can sync into a single quantum state. Researchers uncovered a speed limit for the process that has implications for quantum computing and the evolution of the early universe.

January 09, 2026 02:51 PM

This Content Appeared In