Abstract: Continuous mass flow gas replenishment may be implemented in a gas lasing device, such as a gas laser or amplifier, by using a restrictive orifice to bleed one or more gases into a reservoir and/or discharge chamber of the gas laser or amplifier at a predefined mass flow rate. The mass flow rate is a function of the pressure drop across the restrictive orifice resulting from the pressure differential between the depleted gas and the source gas. Thus, gases may be added as needed such that the gas total pressure, as well as the constituent partial pressures, is maintained within a desired range throughout the laser or amplifier fill lifetime. The continuous mass flow gas replenishment may thus make up the lost partial pressure of reactive gases in gas lasing devices in a manner that is less complicated and is less expensive than other continuous flow methodologies.

Abstract: A pre-irradiation system and method may be used in a gas discharge lasing device to provide multiple ultraviolet (UV) pre-irradiation discharges per electrical feed-through into a gas discharge chamber of the lasing device. One or more high-voltage electrical feed-throughs are electrically connected to one or more high-voltage electrodes that provide multiple discharge paths to a current return electrode to allow multiple pre-irradiation discharges per feed-through in response to high-voltage pulses applied via the feed-through(s). The discharge paths may include spark gap discharge paths and/or tracking discharge paths across an insulator. In some embodiments, multiple discharge paths are formed between respective tracking locators on a high voltage electrode and/or a current return electrode. In other embodiments, multiple discharge paths are formed between respective discharge locations on a high voltage electrode surrounded by an insulator, which spark or track to a current return electrode.