A repetitively pulsed xenon chloride excimer laser with all ferrite magnetic cores (AFMC) based all solid state exciter

Performance of repetitively pulsed xenon chloride excimer laser (λ~308nm) with solid state pulser consisting of magnetic pulse compression circuit (MPC) using all ferrite magnetic cores (AFMC) is reported. Laser system suitable for 100Hz operation with inbuilt pre-ionizer, compact gas circulation an...

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Bibliographic Details
Published in:Optics and laser technology 2016-10, Vol.84, p.72-78
Main Authors: Benerji, N.S., Varshnay, N.K., Ghodke, D.V., Singh, A.
Format: Article
Language:English
Subjects:
All solid state pulser
Chlorides
Electromagnetic interference
Excimer laser
Excimer lasers
Ferrite
Ferrites
High voltages
Lasers
Magnetic pulse compression
Solid state
Xenon
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Summary:Performance of repetitively pulsed xenon chloride excimer laser (λ~308nm) with solid state pulser consisting of magnetic pulse compression circuit (MPC) using all ferrite magnetic cores (AFMC) is reported. Laser system suitable for 100Hz operation with inbuilt pre-ionizer, compact gas circulation and cooling has been developed and presented. In this configuration, high voltage pulses of ~8µs duration are compressed to ~100ns by magnetic pulse compression circuit with overall compression factor of ~80. Pulse energy of ~18J stored in the primary capacitor is transferred to the laser head with an efficiency of ~85% compared to ~70% that is normally achieved in such configurations using annealed met-glass core. This is a significant improvement of about 21%. Maximum output laser pulse energy of ~100mJ was achieved at repetition rate of 100Hz with a typical pulse to pulse energy stability of ±5% and laser pulse energy of 150mJ was generated at low rep-rate of ~40Hz. This exciter uses a low current and low voltage solid state switch (SCR) that replaces high voltage and high current switch i. e, thyratron completely. The use of solid state exciter in turn reduces electromagnetic interference (EMI) effects particularly in excimer lasers where high EMI is present due to high di/dt. The laser is focused on a thin copper sheet for generation of micro-hole and the SEM image of the generated micro hole shows the energy stability of the laser at high repetition rate operation. Nearly homogeneous, regular and well developed xenon chloride (XeCl) laser beam spot was achieved using the laser. •We demonstrate all ferrite based HV exciter in an excimer laser for the first time.•Elimination of thyratron with simple, inexpensive and efficient high voltage pulser.•Homogeneous and completely filled excimer laser output beam was achieved.•SEM image shows generation of clean micro hole and stability of laser energy.•The all solid state pulser is rugged and easy to assemble.
ISSN:0030-3992
1879-2545
DOI:10.1016/j.optlastec.2016.05.004