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285 nm-Laser (S-MOT)

The 285 nm Laser consists of a two-stage frequency doubled, raman-fiber-amplifier MOPA. The raman-fiber-amplifier is seeded by a diode laser.

  • Laser-Diode current: 280 mA @which settings?
  • Seed power (is displayed in the FLPM RMU CCT 1.1.0.0 program): ~ 20 mW

Turning on the Laser

  • Enable main-switch. Now set the key to standby.
  • Wait for the LED to change the color from orange to green to orange (~15 seconds after turning on). Turn the key now.
  • Start the program FLPM RMU CCT 1.1.0.0 and select the checkbox of Laser Enable.
  • The Power Setpoint must stay at 0.500 W
    • Optimize fiber coupling to Iodine Spectroscopy. Transfer-efficiency > 70%
  • Change Power Setpoint for 285nm SHG operation
    • 2 - 2.500 W for 100-150 mW directly after 285 nm SHG.
    • Do not exceed much more than 3.5 W
  • Flush the SHG with oxygen, by opening the bypass for roughly 10 seconds.
  • Scan the SHG and optimize the incoupling and crystal position
  • Lock the SHG, the voltmeter should display a value around 115 mV (@ 2 W Power Setpoint)
  • Activate the powerstabilization

Turning off the Laser

  • Unlock the laser in DigiLock
  • Now just turn off the main-power on the laser
  • Disable oxygen to 285nm SHG.

Locking to Iodine-Spectroscopy

  • Start DigiLock-Module Server and connect to S-MOT-Laser
    • Push Scan on and AutoLock
    • Change the Offset Value to 0 V
    • Change the frequency with the piezo on the toptica rack electronics to be close to the iodine resonance (check with wavemeter)
    • Change the Setpoint (under AutoLock) to be in the middle of the error signal. Check, if the crosshair snaps to the slope.
    • 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 → click the sampling checkbar to activate
    • 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

The 285nm SHG was build by Jan Friebe and is described in his diplomathesis.

570 nm-Laser

  • Outputpower after cube to 285 nm-SHG: ~ 1.2 W @ 2.5 W 1140nm pump
  • Operationpower: < @ 3 W
  • Max outpupower: ??? W @ ??? W

Iodine spectroscopy

500 mW pump of the yellow laser
  • Infront fiber: ~ 38 mW
  • After fiber: ~ 29 mW @ 0.500 W (= 400 mV @ 0.500 W) [efficiency ~ 70 %]
Normal operation (2-3 W)
  • After fiber: ~ 100 mW
  • At iodine cell: 20-40 mW

285 nm-SHG

  • Outputpower: ~ 100+ mW @ 2.000 W
  • Stabilized power (infront AOM): 80-90 mW
  • Power behind the AOM: 43 mW @ 2.000 W (efficiency ~ 50 %)
  • Power for the Zeaman-slower: 10 mW
  • Power behind the mystical mirrow: 30 mW