Method and device for producing active light clock with gain medium and quantum reference medium separated
A technology of reference medium and gain medium, applied in the direction of automatic power control, electrical components, etc., can solve problems such as practical application difficulties and limit superior performance, and achieve the effect of avoiding low power and narrow line width and improving output power.
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Embodiment 1
[0031] In this embodiment, an active optical clock with a typical dye gain medium and a calcium atom quantum reference medium is selected, and its structure schematic diagram is as follows figure 1As shown, it includes an optical resonant cavity, the cavity mirror 1 at the incident end is coated with a reflective film, and the cavity mirror 2 at the output end is coated with a partial reflective film, and the cavity length of the optical resonant cavity is adjusted by piezoelectric ceramics 4 . The population-inverted gain medium 5 and the quantum reference medium 8 are located in the optical resonant cavity, and the two mediums are independent of each other and separated in space. Collimating lenses 3 are arranged at both ends of the gain medium 5 . The two ends of the quantum reference medium 8 are provided with a pair of Glan-Taylor prisms 7 with orthogonal polarization directions. The gain spectrum of the gain medium 5 covers the frequencies that the quantum reference med...
Embodiment 2
[0040] This embodiment is an active optical clock device in which the semiconductor gain medium and the strontium atom quantum reference medium are separated, and its composition structure is as follows figure 1 shown. Combining the active optical clock generation process of semiconductor gain medium and strontium atomic quantum reference medium separation, the description of each component is as follows:
[0041] 1) Using a semiconductor material as the gain medium 5, first use the pump source 6 to pump the semiconductor gain medium 5 with a working wavelength of 689nm to achieve population inversion, and place it in the optical resonant cavity with the piezoelectric ceramic 4 In the optical resonant cavity formed by mirrors 1 and 2; the semiconductor gain medium 5 has a very wide gain spectrum, and covers the frequency of the 689nm transition spectrum of the quantum frequency reference medium 8 strontium atoms; the collimating lens 3 collimates the light beam .
[0042] 2)...
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