Patent application number | Description | Published |
20090047584 | MASK BLANK AND MASK - [Problems] To enhance the resolution of patterning of a light shielding film. | 02-19-2009 |
20090155698 | PHOTOMASK BLANK AND PRODUCTION METHOD THEREOF, AND PHOTOMASK PRODUCTION METHOD, AND SEMICONDUCTOR DEVICE PRODUCTION METHOD - There are provided a photomask blank which is capable of preventing static buildup caused by electron beam pattern drawing for forming a resist pattern, a photomask blank which provides a good pattern accuracy through optimization of the dry etching rate along the depth direction of the shielding film, and a photomask blank which is capable of reducing the dry etching time by increasing the dry etching rate of the shielding film. | 06-18-2009 |
20090233190 | MASK BLANK AND METHOD FOR MANUFACTURING TRANSFER MASK - [Problems] To provide a mask blank which can eliminate pattern defects by preventing a resist pattern from disappearing at the time of manufacturing a transfer mask in semiconductor design rule (DRAM hp65 nm or below), and to provide a mask. | 09-17-2009 |
20090246647 | PHOTOMASK BLANK, PHOTOMASK, AND METHODS OF MANUFACTURING THE SAME - A photomask blank has a light shieldable film formed on a light transmitting substrate. The light shieldable film has a light shielding layer which is formed of molybdenum silicide metal containing molybdenum in a content greater than 20 atomic % and not greater than 40 atomic % and which has a thickness smaller than 40 nm, an antireflection layer formed on the light shielding layer in contact with the light shielding layer and formed of a molybdenum silicide compound containing at least one of oxygen and nitrogen, and a low reflection layer formed under the light shielding layer in contact with the light shielding layer. | 10-01-2009 |
20100167185 | PHOTOMASK BLANK MANUFACTURING METHOD AND PHOTOMASK MANUFACTURING METHOD - A thin film made of a material containing a metal and silicon is formed on a light-transmissive substrate. Then, a treatment is performed to modify a main surface of the thin film in advance so that when exposure light having a wavelength of 200 nm or less is accumulatively irradiated on a thin film pattern of a photomask to be produced by patterning the thin film, the transfer characteristic of the thin film pattern does not change more than a predetermined degree. This treatment is performed by carrying out, for example, a heat treatment in an atmosphere containing oxygen at 450° C. to 900° C. | 07-01-2010 |
20100245310 | LUMINANCE CONTROL METHOD AND DISPLAY - A display device includes a display panel, a light emitting device that provides backlight to the display panel, and a control device that determines the brightness of the backlight that the light emitting device should provide. The control device detects a timing when the brightness of the backlight illuminating the display panel is switched; recognizes an updated brightness level that should replace, as the one to be applied, an initial brightness level representing the brightness of the backlight at the detection timing; and changes the brightness of the backlight step by step after the detection timing from the initial brightness level to the updated brightness level. | 09-30-2010 |
20110171567 | PHASE SHIFT MASK BLANK, PHASE SHIFT MASK, AND METHOD FOR MANUFACTURING PHASE SHIFT MASK BLANK - Problem: There is a demand for a phase shift mask that makes it possible to decrease the film thickness of the phase shift film, can satisfy the requirement relating to pattern accuracy, without collapsing the OPC pattern, and enables control of optical characteristics and pattern defect inspection, and also for a phase shift mask blank as an original plate for such a phase shift mask. | 07-14-2011 |
20110177436 | MASK BLANK AND METHOD OF MANUFACTURING A TRANSFER MASK - A mask blank includes a transparent substrate and a light-shielding film formed on the transparent substrate. The light-shielding film is made of a material composed mainly of a metal that is dry-etchable with a chlorine-based gas. A resist film is used to form a transfer pattern in the light-shielding film. An etching mask film is formed on an upper surface of the light-shielding film and is made of a material containing a transition metal, silicon, and at least one of nitrogen and oxygen. A content ratio of the transition metal to a total of the transition metal and the silicon in the etching mask film is less than 9%. | 07-21-2011 |
20110183240 | MASK BLANK, MASK BLANK MANUFACTURING METHOD, TRANSFER MASK, AND TRANSFER MASK MANUFACTURING METHOD - According to certain embodiments, a mask blank for an electron beam writing is provided, capable of forming a resist pattern of a 3-dimensional topology through an one-time writing. The mask blank includes a substrate, a thin film formed on the substrate, and an electron beam resist film formed on the thin film. The electron beam resist film is made of a laminated film including at least a lower resist film and an upper resist film. The lower resist film and the upper resist film have different resist sensitivities with respect to an electron beam. | 07-28-2011 |
20110212392 | PHOTOMASK BLANK, PHOTOMASK, AND METHODS OF MANUFACTURING THE SAME - A photomask blank is for use in manufacturing a photomask to be applied with exposure light having a wavelength of 200 nm or less. The photomask blank has a light-transmitting substrate and a light-shielding film formed thereon. The light-shielding film has a light-shielding layer containing a transition metal and silicon and a front-surface antireflection layer formed contiguously on the light-shielding layer and made of a material containing at least one of oxygen and nitrogen. The light-shielding film has a front-surface reflectance of a predetermined value or less for the exposure light and has a property capable of controlling the change width of the front-surface reflectance at the exposure wavelength to be within 2% when the thickness of the front-surface antireflection layer changes in the range of 2 nm. The material of the front-surface antireflection layer having a refractive index n and an extinction coefficient k capable of achieving such property is selected. | 09-01-2011 |
20110217635 | METHOD OF MANUFACTURING TRANSFER MASK AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - The present invention is a method of manufacturing a transfer mask with use of a mask blank in which a thin film for pattern formation and a chromium-based thin film made of a material containing chromium are stacked on a transparent substrate in this order. The thin film for pattern formation is made of material containing silicon and a transition metal other than chromium. The chromium-based thin film is made of a material containing chromium. Exposure light having a wavelength of 200 nm or less is applied to the transfer mask. In the manufacturing method, the transfer mask is produced by performing, in the following order, a process of forming a resist film having a transfer pattern on the chromium-based thin film, a process of forming a transfer pattern in the chromium-based thin film with use of a mask of the resist film having the transfer pattern, a process of forming a transfer pattern in the thin film for pattern formation with use of a mask of the chromium-based thin film having the transfer pattern, and a process of removing the chromium-based thin film by etching. The manufacturing method further includes a cleaning process of at least one of alkali solution cleaning, hot water cleaning, and ozone-containing water cleaning on the produced transfer mask until a width of the transfer pattern of the thin film for pattern formation is reduced by 4 nm or a space width of the thin film for pattern formation is increased by 4 nm. | 09-08-2011 |
20110229807 | PHOTOMASK BLANK, PHOTOMASK, METHOD OF MANUFACTURING THE SAME, AND METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE - [Object] A photomask blank for use in producing a photomask for exposure with an ArF excimer laser. The photomask blank is intended to be applied to the 32-nm DRAM half-pitch (hp) and succeeding generations in the semiconductor design rule. | 09-22-2011 |
20110287346 | MASK BLANK MANUFACTURING METHOD, TRANSFER MASK MANUFACTURING METHOD, MASK BLANK, AND TRANSFER MASK - Provided is a method of manufacturing a mask blank having a thin film on a transparent substrate. The method includes forming the thin film made of a material containing a transition metal on the transparent substrate and applying a superheated steam treatment to the thin film. | 11-24-2011 |
20110305978 | PHOTOMASK BLANK, PHOTOMASK, AND METHOD OF MANUFACTURING PHOTOMASK BLANK - The present invention provides a photomask blank for producing a photomask to which an ArF excimer laser light is applied, wherein: a thin film having a multilayer structure is provided on a light transmissive substrate; and the uppermost layer of the thin film has an amorphous structure made of a material comprising chromium and at least one of nitrogen, oxygen and carbon. | 12-15-2011 |
20120034552 | METHOD OF MANUFACTURING A PHOTOMASK - A thin film composed of a material containing a metal and silicon is formed on a transparent substrate, and a thin film pattern is formed by patterning the thin film. Then, the main surface and the side walls of the thin film pattern are previously modified so as to prevent the transfer characteristics of the thin film pattern from changing more than predetermined even in the case where exposure light with a wavelength of 200 nm or less is cumulatively applied onto the thin film pattern which has been formed. The main surface and the side walls are modified by, for instance, performing heat treatment to the main surface and the side walls at 450-900° C. in the atmosphere containing oxygen. | 02-09-2012 |
20120045713 | PHOTOMASK BLANK, METHOD OF MANUFACTURING THE SAME, PHOTOMASK, AND METHOD OF MANUFACTURING THE SAME - A photomask blank for use in the manufacture of a photomask adapted to be applied with exposure light having a wavelength of 200 nm or less has a thin film on a transparent substrate. The thin film is made of a material containing a transition metal, silicon, and carbon and comprising silicon carbide and/or a transition metal carbide. | 02-23-2012 |
20120082924 | MASK BLANK, TRANSFER MASK, METHOD OF MANUFACTURING A TRANSFER MASK, AND METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE - A mask blank for use in the manufacture of a binary mask adapted to be applied with ArF excimer laser exposure light has, on a transparent substrate, a light-shielding film for forming a transfer pattern. The light-shielding film has a laminated structure of a lower layer and an upper layer and has an optical density of 2.8 or more for exposure light and a thickness of 45 nm or less. The lower layer is made of a material in which the total content of a transition metal and silicon is 90 at % or more, and has a thickness of 30 nm or more. The upper layer has a thickness of 3 nm or more and 6 nm or less. The phase difference between exposure light transmitted through the light-shielding film and exposure light transmitted in air for a distance equal to the thickness of the light-shielding film is 30 degrees or less. | 04-05-2012 |
20120115075 | MASK BLANK, TRANSFER MASK, METHOD OF MANUFACTURING A TRANSFER MASK, AND METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE - A mask blank for use in the manufacture of a transfer mask adapted to be applied with ArF exposure light is disclosed. The mask blank has a light-shielding film on a transparent substrate. The light-shielding film has an at least two-layer structure comprising a lower layer composed mainly of a material containing a transition metal, silicon, and nitrogen and an upper layer composed mainly of a material containing a transition metal, silicon, and nitrogen. The ratio of the etching rate of the lower layer to that of the upper layer is 1.0 or more and 5.0 or less in etching which is carried out by supplying a fluorine-containing substance to a target portion and irradiating charged particles to the target portion. | 05-10-2012 |
20120129084 | PHOTOMASK BLANK AND PRODUCTION METHOD THEREOF, AND PHOTOMASK PRODUCTION METHOD, AND SEMICONDUCTOR DEVICE PRODUCTION METHOD - A photomask blank which is capable of preventing static buildup caused by electron beam pattern drawing for forming a resist pattern. The photomask blank provides a good pattern accuracy through optimization of the dry etching rate along the depth direction of the shielding film, and is capable of reducing the dry etching time by increasing the dry etching rate of the shielding film. The photomask blank includes a translucent substrate having thereon a shielding film composed mainly of chromium and the shielding film contains hydrogen. The shielding film is formed in such a manner that the film formation rate of the layer at the surface side is lower than the film formation rate of the layer at the translucent substrate side of the shielding film. The dry etching rate of the shielding film is lower at the translucent substrate side than at the surface side. | 05-24-2012 |
20120156596 | MASK BLANK, TRANSFER MASK, METHOD OF MANUFACTURING A TRANSFER MASK, AND METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE - A mask blank for use in the manufacture of a transfer mask adapted to be applied with ArF excimer laser exposure light is disclosed. The mask blank has, on a transparent substrate, a light-shielding film for forming a transfer pattern. The light-shielding film has an at least two-layer structure including a lower layer and an upper layer from the transparent substrate side. The lower layer is made of a material composed of a transition metal, silicon, and nitrogen and having a nitrogen content of 21 at % or more and a refractive index n of 1.9 or less. The upper layer is made of a material composed of a transition metal, silicon, and nitrogen and having a refractive index n of 2.1 or less. A surface layer of the upper layer contains oxygen and has a nitrogen content of 14 at % or more. | 06-21-2012 |
20120189946 | MASK BLANK AND TRANSFER MASK - Provided is a mask blank which enables EB defect correction to be suitably applied and which further enables a reduction in the thickness of a light-shielding film. A mask blank | 07-26-2012 |
20120251929 | PHASE SHIFT MASK BLANK, PHASE SHIFT MASK, AND METHOD FOR MANUFACTURING PHASE SHIFT MASK BLANK - A phase shift mask blank having, on a transparent substrate, a phase shift film including, as main components, a metal, silicon (Si) and nitrogen (N), having optical characteristics of a transmittance of equal to or greater than 9% and equal to or less than 30% with respect to a wavelength of the ArF excimer laser beam and a phase difference of equal to or greater than 150° and less than 180°, and a light-shielding film formed on the phase shift film. A thickness of the phase shift film is equal to or less than 80 nrn, a refractive index (n) with respect to the wavelength of the ArF excimer laser beam is equal to or greater than 2.3, and an extinction coefficient (k) is equal to or greater than 0.28. | 10-04-2012 |
20120251931 | TRANSFER MASK, METHOD OF MANUFACTURING A TRANSFER MASK, AND METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE - Provided is a transfer mask which has a transfer pattern formed in a pattern-forming thin film provided on a transparent substrate and is adapted to be applied with exposure light having a wavelength of 200 nm or less. The pattern-forming thin film is made of a material containing silicon an a transition metal other than chromium and the chromium content in the film is less than 1.0×10 | 10-04-2012 |
20130065166 | PHASE SHIFT MASK BLANK AND PHASE SHIFT MASK - The present invention provides a photomask blank used for producing a photomask to which an ArF excimer laser light is applied, wherein: a light-shielding film is provided on a light transmissive substrate; the light-shielding film has a laminated structure in which a lower layer, an interlayer and an upper layer are laminated in this order from the side close to the light transmissive substrate; the thickness of the entire light-shielding film is 60 nm or less; the lower layer is made of a film containing a metal and has a first etching rate; the upper layer is made of a film containing a metal and has a third etching rate; the interlayer is made of a film containing the same metal as that contained in the lower layer or the upper layer and has a second etching rate that is lower than the first etching rate and the third etching rate; and the thickness of the interlayer is 30% or less of the thickness of the entire light-shielding film. | 03-14-2013 |
20130230795 | PHOTOMASK BLANK, PHOTOMASK, AND METHODS OF MANUFACTURING THE SAME - A photomask blank is for use in manufacturing a photomask to be applied with exposure light having a wavelength of 200 nm or less. The photomask blank has a light-transmitting substrate and a light-shielding film formed thereon. The light-shielding film has a light-shielding layer containing a transition metal and silicon and a front-surface antireflection layer formed contiguously on the light-shielding layer and made of a material containing at least one of oxygen and nitrogen. The light-shielding film has a front-surface reflectance of a predetermined value or less for the exposure light and has a property capable of controlling the change width of the front-surface reflectance at the exposure wavelength to be within 2% when the thickness of the front-surface antireflection layer changes in the range of 2 nm. The material of the front-surface antireflection layer having a refractive index n and an extinction coefficient k capable of achieving such property is selected. | 09-05-2013 |
20130280646 | MASK BLANK, TRANSFER MASK, METHOD OF MANUFACTURING A TRANSFER MASK, AND METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE - A mask blank for use in the manufacture of a binary mask adapted to be applied with ArF excimer laser exposure light has, on a transparent substrate, a light-shielding film for forming a transfer pattern. The light-shielding film has a laminated structure of a lower layer and an upper layer and has an optical density of 2.8 or more for exposure light and a thickness of 45 nm or less. The lower layer is made of a material in which the total content of a transition metal and silicon is 90 at % or more, and has a thickness of 30 nm or more. The upper layer has a thickness of 3 nm or more and 6 nm or less. The phase difference between exposure light transmitted through the light-shielding film and exposure light transmitted in air for a distance equal to the thickness of the light-shielding film is 30 degrees or less. | 10-24-2013 |
20140030641 | MASK BLANK, TRANSFER MASK, METHOD OF MANUFACTURING A TRANSFER MASK, AND METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE - A mask blank for use in the manufacture of a transfer mask adapted to be applied with ArF excimer laser exposure light is disclosed. The mask blank has, on a transparent substrate, a light-shielding film for forming a transfer pattern. The light-shielding film has an at least two-layer structure including a lower layer and an upper layer from the transparent substrate side. The lower layer is made of a material composed of a transition metal, silicon, and nitrogen and having a nitrogen content of 21 at % or more and a refractive index n of 1.9 or less. The upper layer is made of a material composed of a transition metal, silicon, and nitrogen and having a refractive index n of 2.1 or less. A surface layer of the upper layer contains oxygen and has a nitrogen content of 14 at % or more. | 01-30-2014 |
20140057199 | PHOTOMASK BLANK, PHOTOMASK, AND METHOD FOR MANUFACTURING PHOTOMASK BLANK - A photomask blank for producing a photomask to which an ArF excimer laser light is applied. The blank includes a light transmissive substrate on which a thin film having a multilayer structure is provided. The thin film has a light-shielding film in which a back-surface antireflection layer, a light-shielding layer and a front-surface antireflection layer are laminated in this order. The light-shielding layer comprises chromium and nitrogen, and the chromium content is more than 50 atomic %. The front-surface antireflection layer and the back-surface antireflection layer each has an amorphous structure made of a material comprising chromium, nitrogen, oxygen and carbon. The chromium content ratio of the front-surface antireflection layer and the back-surface antireflection layer is 40 atomic % or less. A first sum of nitrogen content and oxygen content of the back-surface antireflection layer is less than a second sum of nitrogen content and oxygen content of the front-surface antireflection layer. | 02-27-2014 |
20140087292 | MASK BLANK, TRANSFER MASK AND METHOD OF MANUFACTURING TRANSFER MASK - Provided is a mask blank which enables EB defect correction to be suitably applied and which further enables a reduction in the thickness of a light-shielding film. A mask blank | 03-27-2014 |
20140127614 | PHOTOMASK BLANK, METHOD OF MANUFACTURING THE SAME, PHOTOMASK, AND METHOD OF MANUFACTURING THE SAME - A photomask blank for use in the manufacture of a photomask adapted to be applied with exposure light having a wavelength of 200 nm or less has a thin film on a transparent substrate. The thin film is made of a material containing a transition metal, silicon, and carbon and comprising silicon carbide and/or a transition metal carbide. | 05-08-2014 |
20150056539 | PHASE SHIFT MASK BLANK AND PHASE SHIFT MASK - The present invention provides a photomask blank used for producing a photomask to which an ArF excimer laser light is applied, wherein: a light-shielding film is provided on a light transmissive substrate; the light-shielding film has a laminated structure in which a lower layer, an interlayer and an upper layer are laminated in this order from the side close to the light transmissive substrate; the thickness of the entire light-shielding film is 60 nm or less; the lower layer is made of a film containing a metal and has a first etching rate; the upper layer is made of a film containing a metal and has a third etching rate; the interlayer is made of a film containing the same metal as that contained in the lower layer or the upper layer and has a second etching rate that is lower than the first etching rate and the third etching rate; and the thickness of the interlayer is 30% or less of the thickness of the entire light-shielding film. | 02-26-2015 |