Bloembergen's early research on nuclear magnetic resonance led him
to an interest in masers. He designed a three-stage crystal maser that
was dramatically more powerful than earlier gaseous masers and that
has become the most widely used microwave amplifier. Bloembergen then
developed laser spectroscopy, which allows high-precision observations
of atomic structure. His laser spectroscopic investigations led him
in turn to formulate nonlinear optics, a new theoretical approach to
the analysis of how electromagnetic radiation interacts with matter.
Bloembergen's research in nonlinear optics helped procure him a share
of the Nobel Prize.
|
Main Page | About Us | All text is available under the terms of the GNU Free Documentation License. Timeline of Nobel Prize Winners is not affiliated with The Nobel Foundation. External sites are not endorsed or supported by http://www.nobel-winners.com/ Copyright © 2003 All Rights Reserved. |