Title :
Towards a new clock laser system using a ceramic cavity and laser linewidth transfer technique
Author :
Hosaka, Kazumoto ; Inaba, Hiromi ; Akamatsu, Daisuke ; Yasuda, Makoto ; Onae, Atsushi ; Feng-Lei Hong ; Sugawara, Jun
Author_Institution :
Nat. Metrol. Inst. of Japan (NMIJ), Nat. Inst. of Adv. Ind. Sci. & Technol. (AIST), Tsukuba, Japan
Abstract :
We propose employing an ultra-low thermal expansion ceramic for long cavity spacers that can reduce thermal noise effect on ultra-stable optical cavities relatively, since the high-rigidity ceramic should be insensitive to vibration. Thermal expansion properties are investigated using a prototype ceramic cavity. Simulation results show that responses of a long ceramic cavity to the vertical acceleration are similar to that of a short ultra-low expansion (ULE) glass cavity. Linewidth transfer technique based on an optical frequency comb combining with the narrow linewidth laser stabilized to the ceramic cavity would serve as a useful ultra-stable local oscillator for optical clocks.
Keywords :
ceramics; laser cavity resonators; laser frequency stability; optical design techniques; optical materials; thermal expansion; thermal noise; clock laser system; laser linewidth transfer technique; narrow linewidth laser; optical clocks; optical frequency comb; thermal expansion properties; thermal noise effect; ultralow expansion glass cavity; ultralow thermal expansion ceramic cavity; ultrastable local oscillator; ultrastable optical cavities; vertical acceleration; vibration; Cavity resonators; Ceramics; Clocks; High-speed optical techniques; Laser stability; Optical reflection; Optical sensors; optical cavity; thermal noise; ultra-low expansion ceramic; ultra-stable laser;
Conference_Titel :
European Frequency and Time Forum & International Frequency Control Symposium (EFTF/IFC), 2013 Joint
Conference_Location :
Prague
DOI :
10.1109/EFTF-IFC.2013.6702221
