We use toptica electronics:

1. Turning the main-key to on. The LED´s from the temperature control will go on!
2. Push the green button. The green LED from the button will go on!
3. Switch on the toggle (=Kippschalter) from the laserdiode. The green LED from the laserdiode module will go on!
4. Switch on the toggle from the TA, if he is seeded! The green LED from the TA module will go on!

If the switches are on, then not steps 3. & 4.

Both toggles to switch to off(Laserdiode/TA) is not required!

1. Push the red button. The green LED will go out!
2. Turning the main-key to “mains”

1. Switch off the toggle from the TA. The green LED from the TA module will go out!
2. Switch off the toggle from the laserdiode. The green LED from the laserdiode module will go out!

1. Switch off or on the toggle from the TA. The green LED from the TA module will go out!

Typical efficiencies at 916 nm:

• Isolators: 80 %
• AOMs: 50-60 %
• Fiber coupling: 50 %

Typical values for the laser:

• Frequency: 327.5293 THz (doubled upstairs directly behind SHG: 655.058 566 THz)
• Power after ECDL: ~12 mW (@ ~90 mA)
• Power after TA: ~200 mW (@ ~1000 mA)
• TA current should be <1.2A otherwise the fiber stabilization will soar (=aufschwingen)

Typical values in front fibers:

• Power before fiber for wavemeter/comb/mode analysis cavity:~12 mW
• Power before AtomLabFiber: ~30 mW → 15 mW upstairs before TA
• Power to R2: ~2.5 mW

Typical values for the resonators:

• In front of telescope: 2.2 mW
• In front of AOM: 1.5 mW
• In front of fiber: 450 µW
• 100 µW between Isolator and BS
• 50 µW in front of Resonator

Typical values for locking signals:

• PDH error signal locked ~500 mV PP / unlocked ~200 mV PP
• Intensity Error signal ~2 mV PP / DC:
• Fiber Stabilization Locked ~200 mV PP / Unlocked ~2 Volt PP

Manuals and Datasheets