Difference between revisions of "OPO"
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| Double resonant single sided half-monolithic standing wave cavity with reflectivity of 97.5% @ 775 nm and 85% @ 1550 nm. | | Double resonant single sided half-monolithic standing wave cavity with reflectivity of 97.5% @ 775 nm and 85% @ 1550 nm. | ||
|- | |- | ||
| − | | [https:// | + | | [https://doi.org/10.1364/OE.465521 Optics express 19.25 (2011): 25763-25772 ] |
| 1550 nm | | 1550 nm | ||
| 180 mW @ 775 nm | | 180 mW @ 775 nm | ||
| Line 26: | Line 26: | ||
| 9.3 mm x 2 mm x 1 mm PPKTP | | 9.3 mm x 2 mm x 1 mm PPKTP | ||
| Single resonant single sided half-monolithic standing wave cavity with reflectivity of 20% @ 775 nm and 90% @ 1550 nm. | | Single resonant single sided half-monolithic standing wave cavity with reflectivity of 20% @ 775 nm and 90% @ 1550 nm. | ||
| + | |- | ||
| + | | [https://doi.org/10.1364/OE.465521 Optics Express 30.21 (2022): 37213-37223] | ||
| + | | 1550 nm | ||
| + | | ... | ||
| + | | ... | ||
| + | | Bow-tie traveling wave | ||
|} | |} | ||
Revision as of 17:18, 15 December 2023
Optical parametric oscillator
For creating squeezed light source in telecommunication band we may consider the following works by Roman Shnabel's group.
| Work | Wavelength | Pump power | Squeezing achieved | Crystal | Type of cavity |
|---|---|---|---|---|---|
| Optics letters 43.1 (2018): 110-113 | 1550 nm | 12 mW @ 775 nm | 13 dB | 9.3 mm PPKTP | Double resonant single sided half-monolithic standing wave cavity with reflectivity of 97.5% @ 775 nm and 85% @ 1550 nm. |
| Optics express 19.25 (2011): 25763-25772 | 1550 nm | 180 mW @ 775 nm | 12.3 dB @ 180 mW pump | 9.3 mm x 2 mm x 1 mm PPKTP | Single resonant single sided half-monolithic standing wave cavity with reflectivity of 20% @ 775 nm and 90% @ 1550 nm. |
| Optics Express 30.21 (2022): 37213-37223 | 1550 nm | ... | ... | Bow-tie traveling wave |
