|Who is Amar Andalkar?|
|I am currently a postdoctoral Research Associate working in experimental atomic physics in
the lab of Prof. Norval Fortson at the
University of Washington in Seattle. I received my Ph.D. in the same group in June 2001, working on
a novel method for spin polarizing atoms using linearly polarized light, known as "spontaneous
polarization". In addition to this project, I have been involved with several other experiments in
the lab both during and after my graduate career (see the links below). A brief academic CV can be
found here (50 KB PDF version).
Also, see my personal home page for more
information about me and my interests.
|Information about Spontaneous Polarization in Cesium and Related Topics:|
|Very Brief Introduction to Spontaneous Polarization and Hysteresis:
<------ What is that funny looking thing?
|Our recent spontaneous polarization paper, Phys. Rev. A 65, 023407 (2002).
(8 pages, 431 KB PDF version)
|Slides from my Ph.D. Final Exam Seminar (a one-hour talk open to the public)
(May 8, 2001, 83 slides, 3.7 MB PDF version)
NOTE: Many slides in this talk are designed to transition smoothly into the next slide,
so it is best to download and view the talk directly in Acrobat or Acrobat Reader using
the Full Screen mode (make sure the "Replace" transition effect has been selected in Preferences)
|My Ph.D. dissertation, the most complete current description of spontaneous polarization
(June 2001, 293 pages, 3.8 MB PDF version)
|Our recent paper on pressure broadening of the Cs D1 and D2 lines in N2 and He buffer gases,
Phys. Rev. A 65, 032708 (2002). (7 pages, 88 KB PDF version)
|Information about the 894 nm External-Cavity Diode Laser System
which we developed in-house,
including our paper published in Review of Scientific Instruments (November 2000)
|Experimental Apparatus: Photos (composited from visible color and infrared images) and diagram|
|Older Spontaneous Polarization Papers:
First experimental observation, Phys. Rev. Lett. 76, 2266 (1996). (4 pages, 129 KB PDF version)
First theoretical prediction, Phys. Rev. Lett. 59, 1281 (1987). (4 pages, 285 KB PDF version)
I would like to thank my colleagues on this project:
Dr. Bruce Warrington (former post-doc, now at CSIRO Telecommunications and Industrial Physics, Australia)
Dr. Michael Romalis (former post-doc, current Assistant Prof.)
Dr. William Klipstein (former graduate student, now at NASA Jet Propulsion Laboratory)
Prof. Steve Lamoreaux (now at Los Alamos National Laboratory)
Prof. Blayne Heckel
Prof. Norval Fortson (my thesis adviser)
|My Other Projects since Joining the Fortson Lab:|
|Development of Frequency-Quadrupled 254 nm UV Laser for the
Mercury EDM Experiment
with Bill Klipstein & Steve Lamoreaux (June 1995 - January 1996)
| Magneto-Optical Trapping of Ytterbium
with Reina Maruyama, Clark Griffith, Matt Swallows, & Mike Romalis (Summer 1997 - present)
|Development of New Experiments in Cesium:
Parity Non-Conserving Optical Rotation on the 689 nm E2 Transition (January 2001 - present)
Microwave Ground-State Hyperfine Anapole Moment Measurement (November 2001 - present)
|University of Washington Physics Links:|
|University of Washington Home Page
UW Physics Department .
Departmental Home Page .
Physics-Astronomy Library .
UW Atomic Physics Home Page .
Fortson Group Home Page .
Escape from the Lab:
Ski Mountaineering and Climbing Site
Seattle, WA, USA
Last updated: Friday, February 15, 2002