Abstract:
A composition includes a compound including a partial structure represented by formula (1), and solvent. In the formula (1), X1 and X2 each independently represent a substituted or unsubstituted ring structure having 4 to 10 ring atoms constituted taken together with the spiro carbon atom and the carbon atoms of the aromatic ring adjacent to X1 or X2; n1 and n2 are each independently an integer of 0 to 2; and the sum of k1 and k2 are each independently an integer of 1 to 8, wherein the sum of k1 and k2 is no less than 2 and no greater than 16. The compound is preferably represented by formula (2). The sum of k1 and k2 in the formula (1) is preferably no less than 3.
Abstract:
A pattern-forming method includes providing a resist underlayer film on a substrate using a resist underlayer film-forming composition. The resist underlayer film-forming composition includes a first polymer having a glass transition temperature of 0 to 180° C. A silicon-based oxide film is provided on a surface of the resist underlayer film. A resist pattern is provided on a surface of the silicon-based oxide film using a resist composition. The silicon-based oxide film and the resist underlayer film are sequentially dry-etched using the resist pattern as a mask. The substrate is dry-etched using the dry-etched resist underlayer film as a mask.
Abstract:
A chemical structure generating device according to the present invention includes a generator and a controller. The generator produces a product list including one or more compounds, based on a reactant list including one or more compounds and a chemical reaction list. The controller applies the product list as a new reactant list to the generator, updates a database having at least one list of the reactant list and the product list, and allows the generator to produce a new product list based on the new reactant list and the chemical reaction list.
Abstract:
A method comprises applying a composition on a substrate to form a coating film on the substrate. The coating film is heated in an atmosphere in which an oxygen concentration is less than 1% by volume and a temperature is higher than 450° C. and 800° C. or lower, to form a film on the substrate. The composition comprises a compound comprising an aromatic ring. The oxygen concentration in the atmosphere during the heating of the coating film is preferably no greater than 0.1% by volume. The temperature in the atmosphere during the heating of the coating film is preferably 500° C. or higher and 600° C. or lower.
Abstract:
A method for forming a pattern includes providing a resist underlayer film on a substrate using a first composition for forming a resist underlayer film. The first composition includes a polymer having a structural unit represented by a following formula (1). In the formula (1), Ar1 and Ar2 each independently represent a bivalent group represented by a following formula (2). A resist coating film is provided on the resist underlayer film using a resist composition. A resist pattern is formed using the resist coating film. A predetermined pattern is formed on the substrate by sequentially dry-etching the resist underlayer film and the substrate using the resist pattern as a mask.
Abstract:
A pattern-forming method includes: (1) a resist underlayer film-forming step of providing a resist underlayer film on an upper face side of a substrate by coating a resist underlayer film-forming composition containing a resin having a phenolic hydroxyl group; (2) a resist pattern-forming step of forming a resist pattern on an upper face side of the resist underlayer film; (3) a pattern-forming step of dry etching at least the resist underlayer film and the substrate, with the aid of the resist pattern as a mask to form a pattern on the substrate; and (4) a resist underlayer film-removing step of removing the resist underlayer film on the substrate with a basic solution, in the order of (1) to (4).
Abstract:
A method is implemented to select a calculator for performing given processing using a quantum algorithm or a combined algorithm of a classical algorithm and the quantum algorithm. The method comprises a calculation operation, a selection operation, and a control operation. The calculation operation calculates a quantum bit or a quantum volume for performing the given processing using the quantum algorithm, or for a portion of the quantum algorithm when performing the given processing using the combined algorithm. The selection operation selects a calculator for performing the given processing based on the quantum bit or the quantum volume. The control operation generates a control signal to be transmitted to the quantum calculator when the selected calculator includes a quantum calculator. The control signal may correspond to an instruction that initiates the quantum calculator to start the quantum algorithm.
Abstract:
A composition for resist underlayer film formation contains a compound having a group represented by formula (1), and a solvent. R1 represents an organic group having 2 to 10 carbon atoms and having a valency of (m+n), wherein the carbon atoms include two carbon atoms that are adjacent to each other, with a hydroxy group or an alkoxy group bonding to one of the two carbon atoms, and with a hydrogen atom bonding to another of the two carbon atoms; L1 represents an ethynediyl group or a substituted or unsubstituted ethenediyl group; R2 represents a hydrogen atom or a monovalent organic group having 1 to 20 carbon atoms; n is an integer of 1 to 3; * denotes a bonding site to a moiety other than the group represented by the formula (1) in the compound; and m is an integer of 1 to 3.
Abstract:
A method comprises applying a composition on a substrate to form a coating film on the substrate. The coating film is heated in an atmosphere in which an oxygen concentration is less than 1% by volume and a temperature is higher than 450° C. and 800° C. or lower, to form a film on the substrate. The composition comprises a compound comprising an aromatic ring. The oxygen concentration in the atmosphere during the heating of the coating film is preferably no greater than 0.1% by volume. The temperature in the atmosphere during the heating of the coating film is preferably 500° C. or higher and 600° C. or lower.
Abstract:
A pattern-forming method comprises: forming a resist underlayer film on an upper face side of a substrate; forming a silicon-containing film on an upper face side of the resist underlayer film; and removing the silicon-containing film with a basic aqueous solution. The pattern-forming method does not include, after the forming of the silicon-containing film and before the removing of the silicon-containing film, treating the silicon-containing film with a treatment liquid comprising an acid or a fluorine compound. The silicon-containing film is preferably formed a hydrolytic condensation product of a composition containing a compound represented by formula (1) in an amount of no less than 60 mol % with respect to total silicon compounds. X represents a halogen atom or —OR2, and R2 represents a monovalent organic group. SiX4 (1)