WO2013056929A1 - Mercury vapor short arc lamp for dc operation with circular process - Google Patents

Abstract

The invention relates to a mercury vapor short arc lamp (1) for DC operation, comprising a cathode (24) and anode (22) arranged in an inner space of a discharge vessel, wherein the atmosphere in the inner space (6) of the discharge vessel (4) comprises at least one halogen or a halogen compound and the mercury density in the inner space is between 1 and 60 mg/cm³.

Description

 description

Mercury vapor short arc lamp for DC operation with cyclic process

Technical area

The invention relates to a mercury vapor short arc lamp according to the preamble of patent claim 1.

State of the art

Mercury-vapor short-arc lamps (such as OSRAM HBO) are mainly used in the semiconductor industry, as a so-called i-line lamps preferably emit useful ^¬ radiation in the wavelength range around 365 nm (microchip lithography) or as so-called LCD-lamps preferably emit useful radiation in the wavelength range 350 to 450 nm (LCD lithography).

DE 102 09 426 A1 discloses a DC-operated mercury vapor short arc lamp for applications in i-line (365 nm) microlithography. This lamp has an ellipsoidal discharge vessel (lamp vessel) which encloses an anode and a cathode made of tungsten and which contains a filling of noble gas and mercury.

A problem in the operation of mercury vapor arc lamps is the evaporation (sputtering effect) of electrode material (eg tungsten) and the consequent blackening of the inner wall of the lamp bulb, which leads to reduced radiation power and increased bulb temperature. It is known that halogens reduce the blackening of the lamps ^¬ piston during the operating time by the so-called halogen cycle. The sequence of the halogen ^¬ cyclic process can be represented as follows. Due to the high operating temperature in the bulb, the tungsten atoms evaporate from the cathode and anode. Most of these are trapped by the halogens to form halogen compounds rather than settling on the bulb wall. The darkness of the lamp bulb is thereby significantly reduced.

The use of a halogen cycle at discharge ^¬ lamps with mercury chemistry and mercury concentrations of about 150 to 200 mg / cm ³ is known, however, having to inside the lamp Mindesttempe- temperatures (cold spot temperature) of about 800 ° C to be guaranteed, since otherwise the halogen cycle process stops working.

In discharge lamps with mercury chemistry and Quecksil ^¬ ber-concentrations up to 60 mg / cm ^3, and temperatures of the lamp ren inside (cold spot temperature) ranging from 500 to 750 ° C is not effective circular process-method is known which minimize or even prevent bulb blackening.

Presentation of the invention

The object of the present invention is to provide for mercury vapor short arc lamps with mercury concentrations of up to about 60 mg / cm ³ in DC operation a circular process available, which also at lower temperatures (cold spot temperature) inside the lamp works effectively, so that a blackening of the inner wall of the lamp envelope can be effectively prevented.

This object is achieved by a discharge lamp having the features of patent claim 1.

The present invention relates to a mercury vapor short arc lamp, with a arranged in an interior of a Entla ^¬ tion vessel cathode and anode, which is characterized in that the atmosphere in the interior contains at least one halogen or a halogen compound and the mercury density in the interior in so-called i - Line (narrowband ultraviolet emission at 365 nm) mercury vapor short arc lamps (eg OSRAM HBO lamps for i-line lithography) is between 1 and 3 mg / cm ³ or in so-called broadband ultraviolet mercury short arc lamps (eg OSRAM HBO lamps for LCD Lithography) between 20 and 60 mg / cm ³ .

This solution has the advantage that a halogen circuit process, in particular in HBO i-Line and LCD lamps, can be realized despite low operating temperatures (temperature inside the discharge vessel).

According to the invention concentration ranges of halo ^¬ gene or a halogen compound are given, with Quecksilberkonzent- configurations even with mercury vapor short-arc lamps to about 60 mg / cm ³ enables effective halogen cycle, and in which there are no unwanted over-reaction of the cycle.

The addition of halogens or halogen compounds are characterized in particular by the fact that they are very can dose well. The oxygen if necessary inherently contained in these halides as impurities ACCEL ^¬ nigt the desired reaction in the cyclic process.

Particularly advantageous embodiments of the invention can be found in the dependent claims.

Brief description of the drawings

In the following, the invention will be explained in more detail with reference to an embodiment ^¬ example. The figures show:

1 shows a longitudinal section through an HBO discharge lamp according to an embodiment and FIG. 2 shows the life behavior of a HBO 3500W lamp with tungsten oxyhalide addition in the discharge vessel in comparison to two corresponding lamps without tungsten oxyhalide addition.

Preferred embodiment of the invention

The invention is explained below with reference to a DC-operated short-arc mercury vapor lamp (OSRAM HBO 3500W / PI). In this mercury vapor short arc lamp, the atmosphere includes mercury vapor, a halogen or halogen compound and a noble gas as the starting gas. 1 shows a schematic representation of a two ^¬-ended high-pressure discharge lamp 1 in Kurzbo- genetic engineering. This has a discharge vessel 4 made of quartz glass with a discharge space 6 and two diametrically arranged on the discharge vessel 4, sealed piston Shafts 8, 10, the free end portions are each provided with ei ^¬ ner base sleeve 11, 12. In the discharge ^¬ space 6 protrude two in the piston stems 8, 10 extending electrode rods 14, 16, between which a gas discharge (arc) occurs during the lamp operation. In the discharge space 6 of the discharge vessel 4, a filling of mercury vapor and tungsten oxyhalide and optionally an inert gas is included.

The electrode rods 14, 16 are electrically conductively connected to the base sleeves 11, 12 via a gas-tight power supply system, not shown in more detail, in each of the two piston shafts 8, 10. On the discharge side, the electrode rods 14, 16 are connected to an anode 22 or cathode 24. According to the figure, the bottom cathode 24 is formed with a conical tip to produce high temperatures to ensure a defined arc attachment and sufficient electrode flux due to thermal emission and field emission. The top, thermally highly loaded anode 22 in the figure, for example made of tungsten, is carried out in the we ^¬ sentlichen barrel-shaped, the thermal radiation performance (heat dissipation) is improved by a sufficient dimensioning of the electrode size.

The mercury density in the interior 6 of the discharge vessel 4 is preferably between 1-3 mg / cm ³ (i-line lamps) and 20-60 mg / cm ³ (LCD lamps), which corresponds to a low mercury density. In operation, the mercury vapor pressure in the discharge lamp according to the invention is less than 100 bar. The introduced into the atmosphere in the interior 6 of the Entladungsgefä ^¬ SLI 4 halogen and / or halogen compound is preferably a metal oxyhalide, wherein Metalloxyhaloge- halides of rare earths and metals with emission lines in the visible and UV range are excluded.

In a particular embodiment of the present invention, the metal oxyhalide is a tungsten oxyhalide selected from the group consisting of tungsten oxychloride, tungsten oxybromide, tungsten oxyiodide and mixtures thereof. Very particular preference is given to tungsten oxychloride and tungsten oxybromide. Metal oxyhalides are solid and easy to dose.

In the event that the halogen compound contains no oxygen, oxygen can be added to the interior space in stoichiometric amounts, which accelerates the cycle process.

The concentration of chlorine from the halogen compounds in the atmosphere in the interior should be in a preferred embodiment of the invention in a range of 0.1 - 25 g / cm ³ . In the case of bromine the Konzentra ^¬ tion is preferably 0.3 to 100 g / cm ^3.

Thus, it has been found according to the invention that the following concentration ranges for the halides are to be used in i-line lamps and LCD lamps in relation to the mercury density. i-Line lamps (1 kW - 10 kW)

Mercury density: 1 -3 mg / cm ³

Cold Spot Temperature: 500 ° C - 700 ° C Chlorine concentration: 0.1 - 10 g / cm and / or bromine concentration: 0.3 - 50 g / cm ³ LCD lamps

Mercury density: 20-60 mg / cm ³ Cold Spot Temperature: 600 ° C - 750 ° C Chlorine concentration: 0.2-25 g / cm ³ and / or Bromine concentration: 1-100 μg / cm ³

By the addition of at least one halogen or Ha ^¬ homologous compound in the mercury atmosphere in the interior 6 of the cycle process is maintained even at lower temperatures. Thus, the temperature in the interior of the discharge vessel 4 is preferably at most 750 ° C., preferably between 700 ° C. and 600 ° C. (LCD lamps) or 700 ° C. and 500 ° C. (i-line lamps). In a further embodiment of the discharge lamp according to the invention, an inert gas or a mixture of inert gases is furthermore contained in the discharge vessel 4. In a particular embodiment, the inert gas is argon.

The vapor pressure of the inert gas (s) in the discharge vessel 4 is preferably between 1 mbar and approximately 5 bar. Due to the high pressure, the tungsten evaporation can be slowed down

FIG. 2 shows the time profile 100 of the radiation power of the i-line (365 nm) of an HBO 3500W / PI lamp (about 3500 W / 160 A current intensity), which according to the invention with about 1.2 mg tungsten oxychloride (WO ₂ CI ₂ ) what was filled corresponds to an effective amount of 0.3 mg of chlorine. Compared to reference lamps 110, 111 that do not contain tungsten ramoxyhalogenid that significantly lower From ^¬ acceptance of the i-line is getting to the ER over time radiation emission. There was no getter used. The ^mercury filling was 540 mg, the argon filling pressure was 850 mbar. No anode loading was made.

As an example of an LCD lamp, a HBO 8000 W / C lamp operated with ^direct current was filled with 6 mg of WO ₂ Cl ₂ - which corresponds to an effective amount of 1.5 mg of chlorine - and 600 mbar of argon and 40 g of mercury , This lamp was kept in operation for 960 hours. It showed no discernible blackening, especially not in the lower piston area.

Claims

claims Mercury-vapor short-arc lamp (1) for direct current operation ^¬, with a in an inner space (6) of Ent ^¬ charge vessel arranged (4), cathode (24) and Ano ^¬ de (22), characterized in that the atmosphere in the interior (6) contains at least one halogen or a halogen compound and the mercury density in the interior (6) is between 1 to 60 mg / cm ³ . Mercury vapor short arc lamp according to claim 1, characterized in ^¬ characterized in that the halogen compound is a metal halide, wherein metal halides rare earths and metals with emission lines in the visible range and UV range are not present in the discharge vessel. Mercury vapor short arc lamp according to claim 2, characterized in ^¬ characterized in that the metal oxyhalide from the group tungsten oxychloride, tungsten oxybromide, tungsten oxyiodide or mixtures thereof. 4. mercury vapor short arc lamp according to claim 3, since ^¬ characterized in that the concentration of chlorine in the atmosphere is 0.1 to 25 ug / cm ³ . 5. mercury vapor short arc lamp according to claim 3, ^¬ characterized in that the concentration of bromine in the atmosphere is 0.3 to 100 g / cm ³ . 6. mercury vapor short-arc lamp according to one of claims 1 to 5 An ^¬, characterized in that it for a temperature inside the discharge vessel (4) during operation of at most 750 ° C is designed. Mercury-vapor short-arc lamp according to claim 6, since ^¬ characterized by that they are for a temperature inside the discharge vessel (4) during loading ^¬ drive in a range between 700 ° C and 600 ° C (LCD lamp) or 700 ° C and 500 ° C (i-line lamp) is designed. Mercury-vapor short-arc lamp according to one of claims 1 to 7 An ^¬, characterized in that in the Ent ^¬ discharge vessel (4) further comprises an inert gas or a Mi ^¬ research are contained in inert gases. Mercury vapor short arc lamp according to claim 8, characterized in ^¬ characterized in that the inert gas is argon. Mercury vapor short arc lamp according to claim 8 or 9, characterized in that the vapor pressure of the inert gas (s) is between 1 mbar and 5 bar.