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Q: Quantenoptik
Q 32: Poster: Laser Spectroscopy
Q 32.3: Poster
Freitag, 6. April 2001, 12:30–15:00, AT2
A Diode Laser with High Frequency Stability — •Hardo Stoehr, Guido Wilpers, Uwe Sterr, Fritz Riehle, and Jürgen Helmcke — Physikalisch–Technische Bundesanstalt, Bundesallee 100, D–38116 Braunschweig
Narrow-linewidth diode lasers as tunable, compact, efficient
and reliable light sources are important for high-resolution
spectroscopy and optical frequency standards. High
frequency stability of diode lasers is achieved by
prestabilization in an extended-cavity configuration and
further locking to a mechanically stable Fabry-Perot cavity
by using the Pound-Drever-Hall technique. Previously we
realized a diode-laser spectrometer at 657 nm with a
measured beat-linewidth of <<0.6 kHz in 10 s that is
applied for optical Ramsey-Bordé spectroscopy of neutral
Calcium atoms [1]. Aiming at a linewidth reduction by
approximately 3 orders of magnitude we now use a high-finesse
ULE-cavity with 20 kHz linewidth resting fixed in a small
vacuum chamber. We present our concepts of vibrational
isolation of the vacuum chamber, active and passive
thermal isolation and investigations of the mechanical,
thermal and optical properties of the high-finesse cavity.
Further we describe our laser stabilization scheme that
includes an intracavity EOM providing high-frequency
correction of laser frequency noise and present first results
for the frequency stability.
Supported by DFG under SFB407.
[1] V. Vassiliev, V. Velichansky, P. Kersten, T. Trebst, and F.Riehle, Opt. Lett. 23, 1229 (1998)