Add to ORKGFrequency-doubled Nd : YAG lasers have been frequency stabilized against the hyperfine structure components of 127I2 by means of the sub-Doppler frequency modulation technique. A frequency stability of 3e-13/sqrt(tau) has been obtained for integration times between 1 ms < tau < 100 s with an estimated reproducibility of about 1 kHz (2E-12). The hyperfine spectroscopy of the rovibrational line P(54)32-0 has been performed and the iodine hyperfine constants have been calculated. The pressure shifts of the hyperfine components a1, a2, a10 and a15 have been measured
[[abstract]]We report, for the first time, the observation of the iodine hyperfine transitions at 53...
We report absolute frequency measurements of the molecular iodine R(34) 20-0 a(1), a(10), and a(15) ...
We employ a relatively simple experimental technique enabling mechanical-noise free, cavityenhanced ...
Frequency-doubled Nd : YAG lasers have been frequency stabilized against the hyperfine structure com...
The FM spectroscopy technique has been applied to two frequency-doubled Nd:YAG lasers to achieve abs...
A compact frequency standard was constructed by stabilizing the frequency of a diode-pumped Nd:YAG l...
Diode-laser-pumped Nd:YAG lasers were frequency stabilized by locking their frequency-doubled output...
[[abstract]]Internal-mirror 543 nm HeNe lasers are frequency-stabilized on the iodine hyperfine tran...
A frequency comparison was carried out between iodine-stabilized Nd:YAG lasers at 532 nm from the Bu...
Abstract—With the aid of two iodine spectrometers, we report for the first time the measurement of t...
We report absolute frequencymeasurements of the a1, a10, and a15 hyperfine components of molecular i...
We report on the frequency stabilization of a 739 nm Ti:sapphire laser to a hyperfine component of t...
Frequency-stabilized lasers are of considerable interest not only for the implementation of time and...
Frequency-stabilized lasers are of considerable interest not only for the implementation of time and...
In this paper, a preliminary result for an iodine frequency stabilized tunable diode laser at 633 nm...
[[abstract]]We report, for the first time, the observation of the iodine hyperfine transitions at 53...
We report absolute frequency measurements of the molecular iodine R(34) 20-0 a(1), a(10), and a(15) ...
We employ a relatively simple experimental technique enabling mechanical-noise free, cavityenhanced ...
Frequency-doubled Nd : YAG lasers have been frequency stabilized against the hyperfine structure com...
The FM spectroscopy technique has been applied to two frequency-doubled Nd:YAG lasers to achieve abs...
A compact frequency standard was constructed by stabilizing the frequency of a diode-pumped Nd:YAG l...
Diode-laser-pumped Nd:YAG lasers were frequency stabilized by locking their frequency-doubled output...
[[abstract]]Internal-mirror 543 nm HeNe lasers are frequency-stabilized on the iodine hyperfine tran...
A frequency comparison was carried out between iodine-stabilized Nd:YAG lasers at 532 nm from the Bu...
Abstract—With the aid of two iodine spectrometers, we report for the first time the measurement of t...
We report absolute frequencymeasurements of the a1, a10, and a15 hyperfine components of molecular i...
We report on the frequency stabilization of a 739 nm Ti:sapphire laser to a hyperfine component of t...
Frequency-stabilized lasers are of considerable interest not only for the implementation of time and...
Frequency-stabilized lasers are of considerable interest not only for the implementation of time and...
In this paper, a preliminary result for an iodine frequency stabilized tunable diode laser at 633 nm...
[[abstract]]We report, for the first time, the observation of the iodine hyperfine transitions at 53...
We report absolute frequency measurements of the molecular iodine R(34) 20-0 a(1), a(10), and a(15) ...
We employ a relatively simple experimental technique enabling mechanical-noise free, cavityenhanced ...