John C.M. Timmermans scite author profile

Witteman

1993

Appl. Phys. B

Abstract.The charge mode is a new mode to excite a discharge XeC1 laser based on the dynamics of a spikersustainer circuit with a magnetic pulse compressor. The breakdown voltage is higher than in any other mode, due to a very fast rise time. The higher breakdown voltage provides a wider discharge and we found that more energy can be deposited before discharge instabilities terminate the optical output. PACS: 42.55.GpThe efficiency of high-pressure, self-sustained, gas-discharge excited lasers, like excimers, can be improved by separating the electrical circuit in a high-impedance, high-voltage spiker circuit and a low impedance sustainer circuit which deposits the main part of the stored energy into the discharge [1]. The spiker circuit provides a fast rising voltage pulse to increase the electron density from its preionization value to its quasi steady state value. Once the discharge has been excited, the sustainer circuit can deposit the stored energy efficiently into the discharge because impedance matching is achieved by charging a Pulse Forming Network (PFN) to twice the dc-breakdown voltage of the gas. To separate the two circuits from each other at least one low inductance switch is needed to prevent the spiker energy from flowing into the low impedance sustainer circuit. Use can be made of a rail-gap switch [1] or an array of switches like thyratrons [2]. Very promising is the application of fast saturable inductors enabling high repetition rate operation. Several circuits have been proposed in which low-loss, high-frequency ferrites are applied to operate the spiker-sustainer circuit in a variety of modes [3][4][5]. Also saturable inductors made of glassy alloys have been used, however, these appear to have higher losses [3].There is a number of reasons why the rise time of the spiker voltage should be as short as possible. Firstly, besides making an electron avalanche, the spiker circuit must also bring the saturable inductor into saturation when a magnetic switch is used. A short rise time lowers the amount of magnetic core material needed and therefore decreases the loss in the saturable inductor.Secondly, a short rise time increases the breakdown voltage of the gas and this provides longer stability. Dyer [6] showed for a TEA CO 2 laser, that small perturbations in the electrical field during the avalanche phase cause fluctuations in the electron density which in case of an excimer laser can initiate long term instabilities like the halogen depletion instability [7].Thirdly, a short rise time prevents preionisation electrons from drifting away from the cathode during the preavalanche phase, which can cause a region with insufficient overlap of the avalanche heads that leads to the onset of streamers [8].Finally, a high breakdown voltage ignites a larger part of the preionized volume as will be shown in this paper. The width of the discharge also depends on the curvature of the electrodes and on the spatial distribution of the preionization electron density.In this paper we describe the performance ...

<title>High-average power XeCl laser with x-ray preionization and spiker-sustainer excitation</title>

Witteman

Timmermans³

et al. 1994

Development of NCLR's 1-kW XeCl laser

Timmermans¹,

Hofstra²,

Couperus³

et al. 2000

Improved x-ray switched XeCl laser

Trentelman

Timmermans

et al. 1994

The performance of a discharge excited XeCl laser has been studied using three different excitation circuits; spiker-sustainer excitation with a ferrite saturable inductor as the main switch; x-ray switching with a fast rise time x-ray preionization pulse, and x-ray triggering with a saturable inductor and a peaking capacitor added to the circuit. This circuit can improve the performance of the x-ray switched XeCl laser considerably.

The influence of charge-mode operation of a XeCl laser on the beam profile

Timmermans²,

Witteman

1996

Optics Communications

The shape of the beam profile of a discharge excited XeCl excimer laser using a spiker-sustainer electrical circuit has been varied from a 'bell'-, through a 'top-hat'-, to a 'camel-back'-profile by varying the delay between the spiker pulse and the maincurrent with the circuit operating in the charge-mode. Fine-tuning of the beam profile can be done by varying the charging voltage of the main pulse forming network or the temperature of a gas purifier regulating the Xe and HCl partial pressures.