Abstract: A second housing whose center portion is depressed and whose end portion around the center portion is formed like a visor is arranged around a first housing whose center portion is depressed and whose end portion around the center portion is formed like a visor, and a hollow portion is formed between the first housing and the second housing by sandwiching a packing between the end portions of the housings. Further, degassed water for preventing empty heating is filled in the hollow portion, and an ultrasonic transducer is placed on the surface of the center portion of the first housing. A weight for preventing the vibration of the wall is provided on the wall surface of the second housing. Since the vibration of the wall of the housing is suppressed by the weight, vibration energy returns toward the bottom surface of the center of the housing through water and is radiated from the bottom surface efficiently as ultrasonic waves.

Abstract: A wet treatment apparatus includes a nozzle having an approximately rectangular introduction opening surface that is open toward a substrate to be treated and an approximately rectangular recovery opening surface that is open toward the substrate, these opening surfaces being flush with each other and disposed with the long side directions thereof in parallel with each other. A treatment liquid is introduced between the introduction opening surface and the surface to be treated of the substrate and is sucked and recovered from between the recovery opening surface and the surface to be treated of the substrate. The flow rate of the treatment liquid flowing from the introduction opening surface to the recovery opening surface through the surface to be treated of the substrate is controlled to 0.02 to 0.3 L/min per 1 cm in the long side direction of the introduction opening surface.

Abstract: The wet treatment liquid feed nozzle of the invention comprises an introducing path having an introducing port, a discharging path having a discharging port, a crossing section formed by causing the introducing path and the discharging path to cross at the other ends thereof, a nozzle assembly having an opening section opening to an object to be treated, provided at the crossing section, and pressure control means, for controlling the difference between the pressure of the wet treatment liquid in contact with the object to be treated and the atmospheric pressure provided at least on the discharging path side so that the wet treatment liquid having been in contact with the object to be treated via the opening section does not flow to outside the discharging path.

Abstract: Deionized water from a deionized water source (21) for electrolysis is supplied by a pressurizing pump (20) to an electrolyzer (2) to obtain a hydrogen gas and ozone gas by means of electrolysis. The pressures of these gasses are maintained at not less than the atmospheric pressure. These gasses at a pressure of the atmospheric pressure or more are dissolved in high-purity water in gas dissolving units (6,7) to obtain ozone water and hydrogen water respectively. These ozone water and hydrogen water are introduced into mixer (8,9) to adjust pH respectively. In this way, highly-concentrated, gas dissolved cleaning solution is prepared in a short period of time.

Abstract: Disclosed is a drying nozzle for realizing a high-efficiency drying device capable of drying an object to be processed to a sufficient degree. The drying nozzle includes a drying gas supply portion having an air supply tube for supplying air for drying a substrate whose surface is wet with a liquid by being sprayed against the surface of the substrate, and a gas/liquid mixture discharge portion which is spaced apart from the surface of the substrate by a predetermined distance to thereby make the thickness of the liquid adhering to the surface of the substrate prior to the drying constant and which has a porous material having a large number of through-holes for discharging the air/liquid mixture consisting of air and the liquid,from the surface of the substrate, the drying gas supply portion and the gas/liquid mixture discharge portion being arranged along the surface of the object so as to be adjacent to each other.

Abstract: An ultrasonic vibrator includes a diaphragm, a side plate which stands on the principal surface of the diaphragm, and a vibrator body placed inside the side plate on the principal surface of the diaphragm in order to apply ultrasonic vibration to the diaphragm. The diaphragm has a thin portion at least in a part of the periphery of an area where the vibrator body is placed. A wet-treatment nozzle includes a supply pipe having, at one end, an inlet for admitting a treatment liquid, a drain pipe having, at one end, an outlet for discharging the waste liquid to the outside after wet treatment, and a connecting portion which faces a workpiece and which connects the other ends of the supply pipe and the drain pipe. The ultrasonic vibrator is placed in the connecting portion of the wet-treatment nozzle.

Abstract: A wet treatment apparatus includes a nozzle having an approximately rectangular introduction opening surface that is open toward a substrate to be treated and an approximately rectangular recovery opening surface that is open toward the substrate, these opening surfaces being flush with each other and disposed with the long side directions thereof in parallel with each other. A treatment liquid is introduced between the introduction opening surface and the surface to be treated of the substrate and is sucked and recovered from between the recovery opening surface and the surface to be treated of the substrate. The flow rate of the treatment liquid flowing from the introduction opening surface to the recovery opening surface through the surface to be treated of the substrate is controlled to 0.02 to 0.3 L/min per 1 cm in the long side direction of the introduction opening surface.

Abstract: A gas solution producing device having a simple structure to reduce a start-up time, and capable of reducing an amount of gas or solution for use, and a method therefor, as well as a cleaning device employing them. An ozone water solution producing device of the present invention includes a gas dissolving module for bringing ozone gas and deionized water in contact with each other for production of ozone solution, a gas introducing pipe for introducing ozone gas from an ozone gas producing device to the gas dissolving module, a buffer, connected on the gas introducing pipe, for temporarily storing ozone gas and thereafter discharging the gas stored to the gas introducing pipe, a first valve for opening or closing the gas introducing pipe to switch introduction and suspension of gas flow to the gas dissolving module, and backflow prevention valve for preventing a backflow of the gas discharged from the buffer.

Abstract: The wet treatment liquid feed nozzle of the invention comprises an introducing path 10 having an introducing port 7, a discharging path 12 having a discharging port 15, a crossing section 14 formed by causing the introducing path 10 and the discharging path 12 to cross at the other ends thereof, a nozzle assembly 50 having an opening section 6 opening to an object to be treated 1, provided at the crossing section 14, and pressure control means 13, for controlling the difference between the pressure of the wet treatment liquid in contact with the object to be treated 1 and the atmospheric pressure provided at least on the discharging path 12 side so that the wet treatment liquid having been in contact with the object to be treated 1 via the opening section 6 does not flow to outside the discharging path 12.

Abstract: There are provided a method and an apparatus for removing electrostatic charges from high resistivity liquid. An insulating film is formed on the surface of a conductive element which is in contact with the high resistivity liquid wherein the insulating film has such a thickness that a tunneling current may flow through the insulating film, thereby preventing the highly purified high resistivity liquid from being contaminated, as well as from becoming acid. Thus, objects to be treated with the high resistivity liquid become free of electrostatic charges without any contamination.

Abstract: The wet treatment liquid feed nozzle of the invention comprises an introducing path 10 having an introducing port 7, a discharging path 12 having a discharging port 15, a crossing section 14 formed by causing the introducing path 10 and the discharging path 12 to cross at the other ends thereof, a nozzle assembly 50 having an opening section 6 opening to an object to be treated 1, provided at the crossing section 14, and pressure control means 13, for controlling the difference between the pressure of the wet treatment liquid in contact with the object to be treated 1 and the atmospheric pressure provided at least on the discharging path 12 side so that the wet treatment liquid having been in contact with the object to be treated 1 via the opening section 6 does not flow to outside the discharging path 12.

Abstract: A cleaning solution preparation device includes a deionized water supply source, a gas supply source, a gas-dissolving unit, and a gas supply pressure controller. The gas supply source supplies any of an oxidative gas, a reductive gas, an inert gas, a mixed gas of an oxidative gas and an inert gas, or a mixed gas of a reductive gas and an inert gas. The gas-dissolving unit dissolves the gas supplied from the gas supply source in deionized water supplied from the deionized water supply source to supply a gas-dissolved cleaning solution to objects to be cleaned. The gas supply pressure controller controls the pressure of the supplied gas at a value exceeding the atmospheric pressure when dissolving the gas in the deionized water.

Abstract: An aqueous oxidizing acidic cleaning solution or an aqueous oxidizing alkaline cleaning solution is produced by mixing an acidic or alkaline solution with ozone water. An aqueous reducing acidic cleaning solution or an aqueous reducing alkaline cleaning solution is produced by mixing an acidic or alkaline solution with hydrogen water. Each of these aqueous cleaning solutions has effective cleaning power and the ORP and pH values thereof are separately controlled. Therefore, by selecting an appropriate aqueous cleaning solution according to the types of contaminants adhering to subjects during each manufacturing step, a plurality of types of contaminants can be removed by washing with one type of aqueous cleaning solution.

Abstract: An aqueous oxidizing acidic cleaning solution or an aqueous oxidizing alkaline cleaning solution is produced by mixing an acidic or alkaline solution with ozone water. An aqueous reducing acidic cleaning solution or an aqueous reducing alkaline cleaning solution is produced by mixing an acidic or alkaline solution with hydrogen water. Each of these aqueous cleaning solutions has effective cleaning power and the ORP and pH values thereof are separately controlled. Therefore, by selecting an appropriate aqueous cleaning solution according to the types of contaminants adhering to subjects during each manufacturing step, a plurality of types of contaminants can be removed by washing with one type of aqueous cleaning solution.

Abstract: The present invention provides an apparatus and a method for producing ionic water which are capable of producing ionic water containing a low concentration of electrolyte with high reproducibility. The present invention also provides an apparatus and a method for producing electrolytic ionic water capable of producing electrolytic ionic water having stable characteristics. The ionic water producing apparatus has at least a gas-liquid mixing device for mixing raw water and a gas, and an ultrasonic exciting device for applying ultrasonic waves to the gas-liquid mixture obtained by the gas-liquid mixing device to generate ions.

Abstract: A surfactant is added to anodic or cathodic water obtained by electrolyzing deionized water or high-purity water. Then, an object of treatment is treated with the anodic or cathodic water containing the surfactant. The object of treatment may be treated, in this way, while irradiating it with an ultrasonic wave having a frequency between 30 kHz and 3 MHz. Furthermore, the anodic or cathodic water is continuously jetted or dropped onto the object of treatment from a nozzle, while irradiating an ultrasonic wave at least at a part in the feed pipe of the anodic or cathodic water.

Abstract: An apparatus and a method for inspecting a thin film transistor easily and securely with good reproducibility without adverse effect on elements of the thin film transistor even if the thin film transistor is not provided with a capacitative element. The apparatus includes an inspection signal generating device for inputting drive pulse signals and test pulse signals, respectively to a gate electrode; a test voltage generating device for inputting a test voltage to the source electrode in synchronism with the drive pulse signals; an external electrode arranged to be opposed to the drive electrode and forming therebetween a capacitance for storing test charges; and an electric signal detecting device for detecting electric signals output from the capacitance formed between the drive electrode and the external electrode to the source electrode in synchronism with test pulse signals to be input to the gate electrode.

Abstract: There are provided a method and an apparatus for removing electrostatic charges from high resistivity liquid. An insulating film is formed on the surface of a conductive element which is in contact with the high resistivity liquid wherein the insulating film has such a thickness that a tunneling current may flow through the insulating film, thereby preventing the highly purified high resistivity liquid from being contaminated, as well as from becoming acid. Thus, objects to be treated with the high resistivity liquid become free of electrostatic charges without any contamination.

Abstract: A electroluminescence device has a light emitting layer composed of a fluorescent powder and a liquid crystal between a transparent substrate formed with a transparent electrode and an insulating substrate formed with an opposed electrode.

Abstract: There is provided a drive circuit for an electro-luminescence (EL) display device comprising a variable frequency oscillator circuit whose output signal frequency is externally modifiable, a voltage booster circuit for boosting the output signal of said variable frequency oscillator circuit to a predetermined level and supplying it to an EL display device as drive voltage, an impedance matching circuit whose impedance is externally modifiable and which is connected to said display device, a timing means for timing the duration of application of drive voltage to said display device and a control means for switching the output signal frequency of said variable frequency oscillator circuit and the impedance of said impedance matching circuit in accordance with said duration of voltage application.