Abstract: An irradiator includes: a first electrode to which a voltage is applied for generating a plasma; and a holding member holding the first electrode; wherein: the holding member has a first member and a second member that are in contact with each other to constitute an accommodation space accommodating the first electrode; and a contact surface between the first member and the second member includes a non-perpendicular contact surface that is non-perpendicular to an axis of the first electrode.

Abstract: An irradiator includes: a first electrode to which a voltage is applied for generating a plasma; and a holding member holding the first electrode; wherein: the holding member has a first member and a second member that are in contact with each other to constitute an accommodation space accommodating the first electrode; and a contact surface between the first member and the second member includes a non-perpendicular contact surface that is non-perpendicular to an axis of the first electrode.

Abstract: The present invention provides a reactive gas application apparatus capable of easily and surely applying a reactive gas to a target object. The reactive gas application apparatus (100) includes: a plasma generating unit (12), a nozzle (1) for discharging a reactive gas activated by plasma generated in the plasma generation unit (12), and a light source unit (50) for emitting light toward a position ahead of a tip of the nozzle (1). The reactive gas application apparatus preferably further includes a control unit for synchronizing plasma generation in the plasma generation unit and light emission in the light source unit.

Abstract: A plasma application apparatus including: an application instrument which has a plasma generation unit, and is configured to discharge at least one of plasma generated by the plasma generation unit and a reactive gas generated by the plasma; and a supply unit for supplying electric power and a plasma generating gas to the application instrument, a supporting part extending upward from the supply unit, a power/gas supply line connecting the application instrument to the supply unit, and a connecting part connecting at least one of the application instrument and the power/gas supply line to the supporting part,

Abstract: The plasma application therapeutic apparatus of the present invention includes: a plasma generating unit, a nozzle for discharging at least one of plasma generated by the plasma generating unit and a reactive gas generated by the plasma, a supply source for supplying a plasma generating gas to the plasma generating unit, an operation unit which is configured to be activated by a user to allow the supply source to supply a predetermined amount of the plasma generating gas to the plasma generating unit, and a reporting unit which is configured to report a remaining gas information in terms of remaining number of times allowed for the supply source to supply the plasma generating gas to the plasma generating unit, based on the plasma generating gas remaining in the supply source.

Abstract: The present invention provides a reactive gas application apparatus capable of easily and surely applying a reactive gas to a target object. The reactive gas application apparatus (100) includes: a plasma generating unit (12), a nozzle (1) for discharging a reactive gas activated by plasma generated in the plasma generation unit (12), and a light source unit (50) for emitting light toward a position ahead of a tip of the nozzle (1). The reactive gas application apparatus preferably further includes a control unit for synchronizing plasma generation in the plasma generation unit and light emission in the light source unit.

Abstract: The present invention discloses a medical therapeutic apparatus (100) which generates plasma and blows out an reactive gas generated by the generated plasma toward a target object from an outlet, wherein a temperature of the reactive gas at a target surface positioned at a distance of 1 mm or more and 10 mm or less from the outlet is 40° C. or less, and a radical concentration is 0.1 to 300 ?mol/L as determined by a hydroxy radical concentration measuring method comprising applying the reactive gas to 0.4 mL of a 0.2 mol/L solution of DMPO (5,5-dimethyl-1-pyrroline-N-oxide) for 30 seconds with a distance from the outlet to a liquid surface of the solution being 5.0 mm, and measuring a hydroxyl radical concentration of the resulting solution by electron spin resonance (ESR) method.

Abstract: A plasma generating apparatus including: a plasma generating unit including a tubular dielectric to which an atmospheric pressure plasma generation gas is introduced, an inner electrode extending in a hollow portion of the tubular dielectric in axial direction of the tubular dielectric and having a coil shape or an irregular surface, and an outer electrode provided on the outside of the tubular dielectric, the inner electrode and the outer electrode being positioned opposite to each other through the tubular dielectric; and a discharge port for discharging an active gas containing active species generated by the atmospheric pressure plasma generated in the plasma generating unit.

Abstract: A reactive gas application apparatus including an instrument (10) which includes: a plasma generating unit (12); and an outlet (1a) for blowing out a reactive gas activated by plasma, the plasma generating unit (12) including: a tubular dielectric (3) to which a plasma generation gas is introduced; an inner electrode (4) provided inside the tubular dielectric (3), and extending in a tube axis direction (O1) of the tubular dielectric (3); and an outer electrode (5) provided outside the tubular dielectric (3) and faces the inner electrode (4) through the tubular dielectric, wherein the inner electrode (4) has a shaft portion extending in the tube axis direction and a spiral ridge formed on an outer peripheral surface of the shaft portion.

Abstract: The present invention discloses a medical therapeutic apparatus (100) which generates plasma and blows out an reactive gas generated by the generated plasma toward a target object from an outlet, wherein a temperature of the reactive gas at a target surface positioned at a distance of 1 mm or more and 10 mm or less from the outlet is 40° C. or less, and a radical concentration is 0.1 to 300 ?mol/L as determined by a hydroxy radical concentration measuring method comprising applying the reactive gas to 0.4 mL of a 0.2 mol/L solution of DMPO (5,5-dimethyl-1-pyrroline-N-oxide) for 30 seconds with a distance from the outlet to a liquid surface of the solution being 5.0 mm, and measuring a hydroxyl radical concentration of the resulting solution by electron spin resonance (ESR) method.

Abstract: A plasma generating apparatus including: a plasma generating unit including a tubular dielectric to which an atmospheric pressure plasma generation gas is introduced, an inner electrode extending in a hollow portion of the tubular dielectric in axial direction of the tubular dielectric and having a coil shape or an irregular surface, and an outer electrode provided on the outside of the tubular dielectric, the inner electrode and the outer electrode being positioned opposite to each other through the tubular dielectric; and a discharge port for discharging an active gas containing active species generated by the atmospheric pressure plasma generated in the plasma generating unit.