Coherent light generators – Particular pumping means – Electrical
Reexamination Certificate
2002-07-01
2004-08-24
Scott, Jr., Leon (Department: 2828)
Coherent light generators
Particular pumping means
Electrical
C372S038050, C372S038020, C372S082000, C372S057000
Reexamination Certificate
active
06782030
ABSTRACT:
CROSS-REFERENCE TO RELATED APPLICATIONS
This application claims convention priority from European patent application no. 01 116 349.0, with a filing date of Jul. 5, 2001. The specification and drawing of the European patent application are specifically incorporated herein by this reference.
BACKGROUND OF THE INVENTION
The present invention relates to a gas laser with a high-voltage electrode and a ground electrode, said high-voltage electrode and said ground electrode being disposed relative to each other in such a manner that a discharge gap is formed between them, and with high voltage generating means including a circuit having at least one storage capacitor as well as at least one secondary capacitor which latter is disposed in the area of the high-voltage electrode within a discharge chamber filled with laser gas.
Gas lasers of this type are known in the prior art. A 1986 brochure of Questek Inc. for example discloses an excimer laser of the 2000 series in which the secondary capacitors, also referred to as peaking capacitors, may be disposed in the immediate vicinity of the electrodes in the laser gas. This spatial vicinity helps maintain a connection of as low as possible inductance between the high-voltage electrode and the secondary capacitors. In such a design, it is no longer necessary to provide low-inductance lead-throughs of the high voltage into the laser tube—making the gas laser simpler in design, thus allowing its production at lower costs. Moreover, the low inductance will result in enhanced gas laser efficiency. In addition, pulse energy fluctuation will be reduced, resulting in enhanced energy stability. In spite of the aforementioned advantages of this prior art gas laser, this known design was abandoned again since it had considerable shortcomings regarding the service life of its components and of the gas used. The abovementioned Questek Inc. brochure for example describes the advantageous arrangement of the secondary capacitors outside the discharge chamber.
It is known, furthermore, how significant the laser gas flow channel is for the quality of the discharge and the magnitude of the repetition rate. High flow velocities and a laser gas flow which should be as laminar as possible will increase the efficiency and the energy stability of the gas laser since there will be a fast laser gas exchange between the electrodes in the time period between two discharges. Disclosed in U.S. Pat. No. 5,771,258, for example, is a design with optimized flow, using the shape of a Venturi tube having an opening angle of approx. 30°. This will allow a considerable increase of the laser gas flow velocity, resulting in a reduction of the inter-discharge time period and thus in higher repetition rates.
Furthermore, German document DE 37 16 873 A1 describes a gas laser which, for increasing its performance, has been designed such that a continuous gas flow is present in the gas discharge chamber which flow is to be optimized by means of appropriate additional reflectors.
However, what is disadvantageous about these prior art designs is that their construction is very time-consuming, and moreover, that the use of additional components makes it impossible to reduce the corresponding prior art gas lasers in size.
It is, therefore, at least one object of the present invention to provide a generic gas laser which will overcome the abovementioned shortcomings of the prior art gas lasers and which exhibits a low head inductance, increased efficiency and enhanced energy stability as well as a prolonged service life of the components and of the laser gas, at the same time allowing a simple and small-dimensioned design.
SUMMARY OF THE INVENTION
In an inventive gas laser, the secondary capacitor or peaking capacitor has at least one external surface oriented towards a high-voltage electrode and made of a material which is inert with respect to the laser gas, said external surface forming at least one boundary surface of a flow channel for the laser gas. Disposing the secondary capacitor in the area of the high-voltage electrode within a laser gas filled discharge chamber (as is actually known) will on the one hand allow a simpler and cheaper overall gas laser design. At the same time, the low inductance will, on the other hand, result in increased laser efficiency and reduced pulse energy fluctuation. By using, according to the invention, at least one external surface of the secondary capacitor oriented towards the high-voltage electrode as a flow-guiding element will in addition allow very small dimensions of the gas laser since additional flow-guiding elements such as reflectors or baffle plates within said discharge chamber will not be required. Moreover, the service life of the individual components, in particular of the secondary capacitors and also of the laser gas flowing past, will be increased due to the fact that the external surfaces of the secondary capacitors are made of a material which is inert with respect to the laser gas. Said external surfaces may be made of BaTiO
3
or SrTiO
3
, for example.
DISCUSSION OF THE PREFERRED EMBODIMENTS
In an advantageous embodiment of the gas laser of the invention, plural secondary capacitors are disposed next to one another, forming a bank of capacitors, with the axis of said bank of capacitors extending in parallel to the axis of said high-voltage electrode. This will ensure that the flow is guided uniformly over the entire width of the discharge along said high-voltage electrode.
In another advantageous embodiment of the gas laser of the invention, two secondary capacitors or two banks of capacitors are provided in the direction of flow of the laser gas in parallel to the high-voltage electrode in such a manner that said high-voltage electrode will rest between the external surfaces of the respective secondary capacitors or banks of capacitors. Such an arrangement of the secondary capacitors ensures a precisely defined flow channel along the longitudinal axis of the high-voltage electrode, which will in turn allow the flow to be guided uniformly over the entire width of the discharge, minimizing any gas fluctuations between the individual discharges.
In yet another advantageous embodiment of the invention, the secondary capacitor or the bank of capacitors is cuboid- or block-shaped or also layered. This serves to optimize the direction of flow of the laser gas.
In yet another advantageous embodiment of the invention, at least two secondary capacitors are provided next to one another and spaced from each other in a bank of capacitors in such a manner that gaps are formed between the individual secondary capacitors, which gaps are closed by elements made of an inert material. Said elements may be made of a ceramic, for example. This will make a complete flow channel for the laser gas available, regardless of the size of the secondary capacitors.
In yet another advantageous embodiment of the gas laser of the invention, said gas laser includes at least one device for accelerating the laser gas circulation. Increasing the laser gas flow velocity will allow a significant increase in the discharge rate or pulse rate of the gas laser.
In yet another advantageous embodiment of the invention, at least one single- or double-core corona rod is provided between the high-voltage electrode and at least one secondary capacitor or at least one bank of capacitors. This will advantageously ensure a pre-ionization of the laser gas. In this case, the core of said corona rods may be connected to ground if the corona tubes are in the vicinity of the high-voltage electrode. However, a high voltage may also be applied to them if the corona rods are disposed in the vicinity of the ground conductor or of a lower voltage potential.
The inventive design of the gas laser is suitable for all gas discharge lasers, in particular those featuring transverse flow through the discharge zone. Such may in particular be excimer lasers in which the active laser gas is e.g. XeCl, KrF, ArF or F
2
.
Further objects, advantages and features of the present invention will appea
Jr. Leon Scott
Womble Carlyle Sandridge & Rice
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