Abstract: A substrate heating apparatus having a conductive heater which heats a substrate includes a filament arranged in the conductive heater and connected to a filament power supply to generate thermoelectrons, and an acceleration power supply which accelerates the thermoelectrons between the filament and conductive heater. The filament has inner peripheral portions formed at a predetermined interval along an inner circle concentric with the substrate, outer peripheral portions formed at a predetermined interval on an outer circle concentric with the inner circle and having a diameter larger than that of the inner circle, and a region formed by connecting the end point of each inner peripheral portions and the end point of a corresponding one of the outer peripheral portions.

Abstract: A substrate processing apparatus includes a chamber capable of being evacuated, a substrate stage adapted to mount a substrate, a heating unit adapted to be set above the substrate mounting surface of the substrate stage, face the substrate mounted on at least the substrate mounting surface, and heat the substrate by radiant heat without being in contact with the substrate, a shutter adapted to be retractably inserted in the space between the heating unit and the substrate mounted on the substrate mounting surface, and a shutter driving unit adapted to extend/retract the shutter into/from the space. The substrate is mounted on the substrate stage to face the heating unit, the substrate is annealed by heating the substrate by radiant heat from the heating unit, and the shutter is extended into the space between the heating unit and the substrate stage.

Abstract: In a substrate heating apparatus, thermoelectrons generated by a filament (132) in a vacuum heating vessel (103) are accelerated to collide against a conductive heater (131) which forms one surface of the vacuum heating vessel (103), thus generating heat. The conductive heater (131) is made of carbon. At least one of the inner and outer surfaces of the conductive heater (131) is coated with tantalum carbide (TaC).

Abstract: A heating apparatus including a filament arranged in a vacuum heating vessel comprises a base plate arranged in the vacuum heating vessel to fix the filament at a predetermined position with respect to a conductive heater forming one surface of the vacuum heating vessel. The base plate comprises a plate body having a carbon fiber.

Abstract: A substrate heating apparatus having a conductive heater which heats a substrate includes a filament arranged in the conductive heater and connected to a filament power supply to generate thermoelectrons, and an acceleration power supply which accelerates the thermoelectrons between the filament and conductive heater. The filament has inner peripheral portions formed at a predetermined interval along an inner circle concentric with the substrate, outer peripheral portions formed at a predetermined interval on an outer circle concentric with the inner circle and having a diameter larger than that of the inner circle, and a region formed by connecting the end point of each inner peripheral portions and the end point of a corresponding one of the outer peripheral portions.