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Size: 522
Comment:
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Size: 756
Comment:
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| Deletions are marked like this. | Additions are marked like this. |
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| || || ''' Incident beam power at 1064 nm [mW]'''|| ''' output beam at 532 nm [mW] '''|| '''Conversion efficiency [%/W] '''|| || PSL doubling|| || || || || X end doubling|| || || || || Y end doubling|| || || || |
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| In order to have an optimal conversion efficiency the crystals need to be temperature-controlled. Currently we are using an oven from Covision inc. |
. In order to have an optimal conversion efficiency the crystals need to be temperature-controlled. Currently we are using an oven from Covision inc. |
| Line 13: | Line 18: |
| * [attachment:PV40.pdf drawing of PV40 oven] * [attachment:PVP2.pdf drawing of the base plate PVP2] * [attachment:manual_oven.pdf manual for the Covesion oven] * [attachment:Oven base plate schematic] |
* [attachment:PV40.pdf drawing of PV40 oven] * [attachment:PVP2.pdf drawing of the base plate PVP2] * [attachment:manual_oven.pdf manual for the Covesion oven] * [attachment:Oven base plate schematic] |
Second Harmonic Generation
Measured Efficiencies
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Incident beam power at 1064 nm [mW] |
output beam at 532 nm [mW] |
Conversion efficiency [%/W] |
PSL doubling |
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X end doubling |
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Y end doubling |
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Frequency doubling Crystal
Mounts and Ovens
- In order to have an optimal conversion efficiency the crystals need to be temperature-controlled. Currently we are using an oven from Covision inc.
- [attachment:PV40.pdf drawing of PV40 oven]
- [attachment:PVP2.pdf drawing of the base plate PVP2]
- [attachment:manual_oven.pdf manual for the Covesion oven]
- [attachment:Oven base plate schematic]
