Abstract: A device for generating short-wavelength electromagnetic radiation based on a gas discharge plasma calls for suppressing droplet formation of liquid coating material that is applied to disk electrodes rotated at high rotational frequencies and ensuring a uniform layer thickness. The device has two rotating disk electrodes, each having two lateral surfaces and a circumferential surface, provided with a reservoir with liquid coating material and a wiper for removing excess coating material. The wiper, which has a U-shaped form comprising two legs parallel to the lateral surfaces of the disk electrode and a crosspiece transversely over the circumferential surface, is at least axially movably supported and has impingement elements at the legs so that it is automatically axially adjustable by means of the coating material which is transported on the lateral surfaces and pressed into the gap during the rotation of the disk electrode.

Abstract: The invention is related to a gas discharge-based radiation source which emits short-wavelength radiation, wherein an emitter is ionized and compressed by pulse-shaped currents between two electrodes arranged in a vacuum chamber and is excited to form an emitting plasma. According to the invention, the plasma is preserved by means of a high-frequency sequence of pulse-shaped currents the pulse repetition period of which is adjusted so as to be shorter than a lifetime of the plasma so that the plasma is kept periodically alternating between a high-energy state of an emitting compressed plasma and a low-energy state of a relaxing plasma. For exciting the relaxing plasma to the compressed plasma, excitation energy is coupled into the relaxing plasma by making use of pulse-shaped currents with repetition frequencies between 50 kHz and 4 MHz and pulse widths equal to the pulse repetition period.

Abstract: The invention is directed to a method and an apparatus for stabilizing the source location during the generation of EUV radiation based on a discharge plasma. The object of finding a novel possibility for stabilizing the source location during the generation of EUV radiation which allows changes in position of the source location to be compensated in a simple manner during the operation of the radiation source is met according to the invention in that a first beam aligning unit (7), a second beam aligning unit (4), and a beam focusing unit (5) are arranged in the vaporization beam (3) and are connected to first to third measuring devices (8, 9, 10) and can be adjusted in order to acquire and compensate for direction deviations and divergence deviations of the vaporization beam (3) with respect to reference values.

Abstract: The invention relates to an improved EUV generating device having coated supply pipes for the liquid tin, in order to provide an extreme UV radiation generating device which is capable of providing a less contaminated flow of tin to and from a plasma generating part.

Abstract: The invention relates to a method and an apparatus for generating EUV radiation from a gas discharge plasma. The object of the invention, to generate EUV radiation from a gas discharge plasma by with is optimized conversion efficiency of the EUV emission while locally limiting the electric discharge channel, is met in that a channel-generating beam of pulsed high-energy radiation is supplied in at least two partial beams which are focused in a pulse-synchronized manner into a superposition region along a spacing axis between the electrodes, and an electrically conductive discharge channel is generated along the superposition region due to an ionization at least of a buffer gas present in the discharge space, wherein the pulsed high-energy radiation of the channel-generating beam is triggered in such a way that the discharge channel is generated before a discharge current pulse has reached its maximum value.

Abstract: The invention is related to the adjustment of characteristics of a beam bundle of high-energy radiation emitted from a plasma, particularly for applications in semiconductor lithography. For acquiring and adjusting characteristics of a beam bundle of high-energy radiation emitted from a plasma and focused by means of collector optics, an intensity distribution of the radiation is acquired over the cross section of a convergent beam bundle in a measuring plane perpendicular to the optical axis in front of an intermediate focus of the collector optics, and intensity values are recorded in defined sectors for a quantity of reception regions of a measuring device which are aligned with different radii concentric to the optical axis, and measured quantities and control variables are determined from a comparison of the intensity values of different sectors for aligning the collector optics.

Abstract: The invention is related to the adjustment of characteristics of a beam bundle of high-energy radiation emitted from a plasma, particularly for applications in semiconductor lithography. For acquiring and adjusting characteristics of a beam bundle of high-energy radiation emitted from a plasma and focused by means of collector optics, an intensity distribution of the radiation is acquired over the cross section of a convergent beam bundle in a measuring plane perpendicular to the optical axis in front of an intermediate focus of the collector optics, and intensity values are recorded in defined sectors for a quantity of reception regions of a measuring device which are aligned with different radii concentric to the optical axis, and measured quantities and control variables are determined from a comparison of the intensity values of different sectors for aligning the collector optics.

Abstract: The invention is related to a gas discharge-based radiation source which emits short-wavelength radiation, wherein an emitter is ionized and compressed by pulse-shaped currents between two electrodes arranged in a vacuum chamber and is excited to form an emitting plasma. According to the invention, the plasma is preserved by means of a high-frequency sequence of pulse-shaped currents the pulse repetition period of which is adjusted so as to be shorter than a lifetime of the plasma so that the plasma is kept periodically alternating between a high-energy state of an emitting compressed plasma and a low-energy state of a relaxing plasma. For exciting the relaxing plasma to the compressed plasma, excitation energy is coupled into the relaxing plasma by making use of pulse-shaped currents with repetition frequencies between 50 kHz and 4 MHz and pulse widths equal to the pulse repetition period.

Abstract: The invention is directed to methods and arrangements for spatial acquisition of measurement data over the cross section of a bundle of high-energy, high-intensity radiation. The object of finding a novel possibility for radiation measurement within the cross section of a beam bundle of high intensity which acquires highly spatially resolved measurement data without impairment of the measuring accuracy through saturation or degradation of the detectors is met according to the invention in that the entire cross section of the beam bundle is imaged on a shading element, the cross section is separated successively into partial beam bundles having reduced cross section and reduced intensity through movement of at least one opening, and measurement values of the partial beam bundles passing the opening are acquired so as to be associated temporally and spatially with the positions of the opening and are stored.

Abstract: The invention is directed to a method and an apparatus for stabilizing the source location during the generation of EUV radiation based on a discharge plasma. The object of finding a novel possibility for stabilizing the source location during the generation of EUV radiation which allows changes in position of the source location to be compensated in a simple manner during the operation of the radiation source is met according to the invention in that a first beam aligning unit (7), a second beam aligning unit (4), and a beam focusing unit (5) are arranged in the vaporization beam (3) and are connected to first to third measuring devices (8, 9, 10) and can be adjusted in order to acquire and compensate for direction deviations and divergence deviations of the vaporization beam (3) with respect to reference values.

Abstract: The invention is directed to an arrangement for generating EUV radiation based on a hot plasma using liquid emitter material. The object of the invention is to find a novel possibility for generating EUV radiation which allows a continuous supply of liquid, particularly metal, emitter material (2) under a defined high pressure without having to interrupt the continuous supply of emitter material (2) when consumed emitter material (2) must be replenished.

Abstract: The invention relates to a method and an apparatus for generating EUV radiation from a gas discharge plasma. The object of the invention, to generate EUV radiation from a gas discharge plasma by with is optimized conversion efficiency of the EUV emission while locally limiting the electric discharge channel, is met in that a channel-generating beam of pulsed high-energy radiation is supplied in at least two partial beams which are focused in a pulse-synchronized manner into a superposition region along a spacing axis between the electrodes, and an electrically conductive discharge channel is generated along the superposition region due to an ionization at least of a buffer gas present in the discharge space, wherein the pulsed high-energy radiation of the channel-generating beam is triggered in such a way that the discharge channel is generated before a discharge current pulse has reached its maximum value.

Abstract: The invention is directed to a method and an arrangement for cleaning optical surfaces of reflection optics which are arranged in a plasma-based radiation source or exposure device arranged downstream and contaminated by debris particles emitted by a hot plasma of the radiation source. It is the object of the invention to find a novel possibility for in-situ cleaning of the optical surfaces of reflection optics which are contaminated by debris in plasma-based radiation sources so as to allow an integrated generation of known gas radicals and the isotropic distribution thereof on the contaminated optical surfaces. According to the invention, this object is met in that the gas radicals are generated by dielectrically impeded discharge between two surface electrodes along the entire optical surface.

Abstract: An arrangement for generating extreme ultraviolet radiation by an electrically operated gas discharge which achieves an improvement in the adjustment of the layer thickness when applying a molten metal to the electrode surfaces and provides better protection against the uncontrolled spreading of molten metal into the environment that is associated with an increase in the rotational speed of the electrodes. It should be possible to increase the rotational speed to the extent that unconsumed discharge zones of the electrodes are always situated in the discharge area at repetition frequencies of several kilohertz. An edge area to be covered has at least one receiving area which extends circumferentially in a closed manner along the edge of the electrode on the electrode surface and which is constructed so as to be wetting for the molten metal and to which a liquid dispensing nozzle is directed for regenerative application of the molten metal.

Abstract: The invention is directed to a method and an arrangement for stabilizing the average emitted radiation output of a pulsed radiation source. It is the object of the invention to find a novel possibility for stabilizing the average emitted radiation output of a pulsed radiation source which enables a reliable regulation even when there is no sufficiently reliable manipulated variable for influencing the emitted pulse energy (Ei). According to the invention, this object is met in that the individual pulse energy (Ei) of the current radiation pulse is measured, the deviation of the current individual pulse energy (Ei) from a previously determined target value (E0) is determined, and the pulse interval (?ti+1) preceding the triggering of the next radiation pulse is controlled depending on the magnitude of the deviation between the current individual pulse energy (Ei) and the target value (E0) of the pulse energy.

Abstract: The invention is directed to an arrangement for generating EUV radiation based on a hot plasma using liquid emitter material. The object of the invention is to find a novel possibility for generating EUV radiation which allows a continuous supply of liquid, particularly metal, emitter material (2) under a defined high pressure without having to interrupt the continuous supply of emitter material (2) when consumed emitter material (2) must be replenished.

Abstract: The object of an arrangement and a method for generating extreme ultraviolet radiation by an electrically operated gas discharge is to improve the adjustment of the layer thickness and, in particular, to prevent an uncontrolled accumulation of the metal layer to be applied to the rotary electrodes during pauses in the pulse operation for generating radiation when, e.g., liquid flows through these rotary electrodes for efficient cooling. In this connection, the rotating speed of the rotary electrodes can be increased in particular until there is always a freshly coated surface region of the electrodes in the discharge area at repetition frequencies of several kilohertz. An edge area to be coated on at least one electrode has at least one receiving area which extends in a closed circumference along the electrode edge on the electrode surface and which is formed so as to be wetting for the molten metal.

Abstract: An arrangement for the generation of radiation by a gas discharge has the object of achieving a considerable reduction in the inductance of the discharge circuit for the gas discharge while simultaneously increasing the lifetime of the electrode system. Also, the use of different emitters is ensured. A rotary electrode arrangement accommodated in the discharge chamber contains electrodes which are rigidly connected to one another at a distance from one another and are mounted so as to be rotatable around a common axis. Capacitor elements of a high-voltage power supply for generating high-voltage pulses for the two electrodes are arranged in a free space formed by the mutual distance. The electrodes are electrically connected to the capacitor elements and to a voltage source for charging the capacitor elements.

Abstract: The invention is directed to an arrangement for the suppression of unwanted spectral components (‘out-of-band’ radiation, as it is called) in a plasma-based radiation source. The object of the invention is to find a novel possibility for the suppression of unwanted spectral components in radiation exiting from a plasma-based EUV radiation source which permits a simple suppression of out-of-band radiation outside the desired EUV range without requiring costly manufacturing and adjustment of diffraction gratings. This object is met according to the invention in that a filter unit is provided between the plasma and an application location of the EUV radiation, which filter unit has at least one gas curtain comprising at least one rapidly flowing gas whose molecules have no absorption maxima for the desired EUV radiation and intensive absorption maxima for other, unwanted wavelengths that are emitted, at least in the IR region.

Abstract: The invention is directed to a device for generating flows of gas for filtering the radiation emitted in plasma-based radiation sources. It is the object of the invention to find a novel possibility for generating a gas curtain in the immediate vicinity of a radiating plasma so as to permit a simple arrangement and design and a long life of the device for generating the gas curtain under extreme thermal stress. According to the invention, this object is met in that a slit nozzle is formed of a plurality of partial bodies comprising different materials to form a supersonic nozzle profile for the generation of a broad gas curtain in order to accommodate the slit nozzle to different thermal and precision-mechanical requirements in the gas inlet region and in the gas outlet region.