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| groups:mg:experiment:laser:285nmlaser [2017/05/03 11:38] – [Turning on the Laser] wfriesen | groups:mg:experiment:laser:285nmlaser [2022/04/06 05:51] (current) – [Locking to Iodine-Spectroscopy] wfriesen | ||
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| Line 15: | Line 15: | ||
| * Flush the SHG with oxygen, by opening the bypass for roughly 10 seconds. | * Flush the SHG with oxygen, by opening the bypass for roughly 10 seconds. | ||
| * Scan the SHG and optimize the incoupling and crystal position | * Scan the SHG and optimize the incoupling and crystal position | ||
| - | * Lock the SHG, the voltmeter should display a value around 115 mV | + | * Lock the SHG, the voltmeter should display a value around 115 mV (@ 2 W Power Setpoint) |
| * Activate the powerstabilization | * Activate the powerstabilization | ||
| ===== Turning off the Laser ===== | ===== Turning off the Laser ===== | ||
| Line 30: | Line 30: | ||
| * Move the crosshair to the second slope, rightclick on press //PID: Lock to Slop//. | * Move the crosshair to the second slope, rightclick on press //PID: Lock to Slop//. | ||
| + | |||
| + | * **Troubleshooting** | ||
| + | * If signal in DigiLock-Software does not update/ signal is frozen | ||
| + | * If signal in DigiLock-Software does not show the usual error-signal at correct frequency, but is saturated at left and right edge of the frame (see picture) -> Check the ref input for the lock-in-amplifier (near the iodine spectroscopy). Probably the input signal is too low. It should be slightly higher than 2 V (~2.2V works fine).{{ : | ||
| ===== Lasersystem - Typical power values ===== | ===== Lasersystem - Typical power values ===== | ||
| The 285nm SHG was build by Jan Friebe and is described in his diplomathesis. | The 285nm SHG was build by Jan Friebe and is described in his diplomathesis. | ||