Abstract: A method of room-temperature bonding a plurality of substrates via an intermediate member, includes: forming the intermediate member on a surface to be bonded of the substrate by physically sputtering a plurality of targets; and activating the surface to be bonded by an ion beam. In this case, it is preferable that the target composed of a plurality of types of materials is physically sputtered. Since the materials of the intermediate member are sputtered from the plurality of targets arranged in various directions from the surface to be bonded of the substrate, the intermediate member can be uniformly formed on the surface to be bonded. Further, since the intermediate member is composed of the plurality of types of materials, the room-temperature bonding of substrates difficult to bond together when an intermediate member is composed of a single type of material can be performed without heating and excessively pressing the substrates during bonding.

Abstract: A method of room-temperature bonding a plurality of substrates via an intermediate member, includes: forming the intermediate member on a surface to be bonded of the substrate by physically sputtering a plurality of targets; and activating the surface to be bonded by an ion beam. Preferably, the target composed of a plurality of types of materials is physically sputtered. Since the materials of the intermediate member are sputtered from the plurality of targets arranged in various directions from the surface to be bonded of the substrate, the intermediate member can be uniformly formed on the surface to be bonded. Further, since the intermediate member is composed of the plurality of types of materials, the room-temperature bonding of substrates difficult to bond together when an intermediate member is composed of a single type of material can be performed without heating and excessively pressing the substrates during bonding.

Abstract: A device is provided with: a first substrate mainly containing silicon dioxide; a second substrate mainly containing silicon, compound semiconductor, silicon dioxide or fluoride; and a bonding functional intermediate layer arranged between the first substrate and the second substrate. The first substrate is bonded to the second substrate thorough room temperature bonding in which a sputtered first surface of the first substrate is contacted with a sputtered second surface of the second substrate via the bonding functional intermediate layer. Here, the material of the bonding functional intermediate layer is selected from among optically transparent materials which are oxide, fluoride, or nitride, the materials being different from the main component of the first substrate and different from the main component of the second substrate.

Abstract: A room temperature bonding method of the present invention includes a step of activating two substrates to prepare two activated substrates; a step of bonding the two activated substrates to produce a bonding resultant substrate; a step of performing annealing of the bonding resultant substrate to reduce residual stress of the bonding resultant substrate. According to such a room temperature bonding method, the residual stress of the bonding resultant substrate can be reduced and the quality can be improved.

Abstract: A room temperature bonding apparatus includes angle adjustment means supporting a first sample stage holding a first substrate so as to be able to change a direction of the first sample stage; a first driving device driving the first stage in a first direction; a second driving device driving a second sample stage holding a second substrate in a second direction not parallel to the first direction; and a carriage support table supporting the second sample stage in the first direction when the second substrate and the first substrate are brought into contact. The apparatus can impose a load exceeding a withstand load of the second driving device on the first and second substrates. Further, the apparatus uses angle adjustment means to change direction of the first substrate to be parallel with the second substrate and uniformly impose the larger load on a bonding surface.

Abstract: The present invention includes an activating step S2 of activating, by irradiating a first substrate surface of a first substrate and a second substrate surface of a second substrate with particles, the second substrate surface and the first substrate surface, and a bonding step S4 of bonding the second substrate and the first substrate together by bringing the second substrate surface and the first substrate surface into contact with each other after a temperature difference between a temperature of the first substrate and a temperature of the second substrate becomes equal to or lower than a predetermined value. According to this bonding method, warpage occurring in a bonded substrate obtained can be further reduced compared with other bonding methods of bonding both substrates before the temperature difference between the temperature of the first substrate and the temperature of the second substrate becomes equal to or lower than a predetermined value.

Abstract: In the case where an automatic reading file composed of plural kinds of detailed parameters stored in a transportable storage device whose attachment is detected has been already read in an apparatus, it is determined whether update, to a currently-read automatic reading file, of an automatic reading file stored in a storage section is carried out or not in accordance with a user's instruction, and is controlled so as to carry out a process. Namely, in the case where an automatic reading file has not been read yet, the automatic reading file stored in the storage section is updated to the currently-read automatic reading file without any condition. On the other hand, if an automatic reading file has been already read, the automatic reading file stored in the storage section may be edited on the basis of it.

Abstract: A multi-layer bonding method of the present invention includes: forming a first bonded substrate by bonding a first substrate and an intermediate substrate in a bonding chamber; conveying a second substrate inside said bonding chamber when said first bonded substrate is arranged inside said bonding chamber; and forming a second bonded substrate by bonding said first bonded substrate and said second substrate in said bonding chamber. According to such a multi-layer bonding method, the upper-side substrate can be bonded with an intermediate substrate and then a first bonded substrate is bonded with a lower-side substrate without taking out the first bonded substrate from the bonding chamber. For this reason, a second bonded substrate can be produced at high speed and at a low cost.

Abstract: A room temperature bonding apparatus according to the present invention is provided with a load lock chamber having an internal space which is pressure-reduced; and a cartridge arranged in the load lock chamber. The cartridge includes an island portion formed to contact a substrate when the substrate is put on the cartridge. A flow passage is formed for the island portion to connect a space between the cartridge and the substrate to outside when the substrate is put on the cartridge. Therefore, in the room temperature bonding apparatus can prevent making the substrate is moved to the cartridge due to gas when the internal space is pressure-reduced.

Abstract: A method of room-temperature bonding a plurality of substrates via an intermediate member, includes: forming the intermediate member on a surface to be bonded of the substrate by physically sputtering a plurality of targets; and activating the surface to be bonded by an ion beam. In this case, it is preferable that the target composed of a plurality of types of materials is physically sputtered. Since the materials of the intermediate member are sputtered from the plurality of targets arranged in various directions from the surface to be bonded of the substrate, the intermediate member can be uniformly formed on the surface to be bonded. Further, since the intermediate member is composed of the plurality of types of materials, the room-temperature bonding of substrates difficult to bond together when an intermediate member is composed of a single type of material can be performed without heating and excessively pressing the substrates during bonding.

Abstract: A wafer bonding method includes: holding a first substrate with an upper holding mechanism 7 by applying a voltage to the upper holding mechanism 7; generating a bonded substrate by bonding the first substrate and a second substrate held with a lower holding mechanism 8; and dechucking the bonded substrate from the upper holding mechanism 7 after a voltage which attenuates while alternating is applied to the upper holding mechanism 7. By applying the voltage which attenuates while alternating to the upper holding mechanism 7, residual attracting force between the bonded substrate and the upper holding mechanism 7 is reduced, thereby enabling the bonded substrate to be dechucked from the holding mechanism more surely in a shorter time period. As a result, the first substrate and the second substrate can be bonded in a shorter time period.

Abstract: A plurality of representative points are selected from a group of points obtained as results of shape measurement of an object, respective principal curvatures are calculated at the representative points on the basis of positional relationships between the representative point and a plurality of points existing around the representative point, a line of curvature is created on the basis of the principal curvatures of the representative points and a curved surface is generated using this line of curvature.

Abstract: Provided is a cold jointing apparatus, which comprises a discharge device, a gas feeding device, a pressure gauge, a clarifying device, a pressure controller and a pressing mechanism. The discharge device discharges a gas from the inside of a chamber. The gas feeding device feeds an introduction gas to the inside of the chamber. The pressure gauge measures the pressure in the chamber. The clarifying device clarifies a first board and a second board in the chamber when the measured pressure is at a predetermined degree of vacuum. The pressure controller controls both the discharge device and the gas feeding device so that the measured pressure may be equal to a target pressure. The pressing mechanism presses the first board and the second board in the chamber when the measured pressure is that target pressure.

Abstract: A room temperature bonding apparatus includes: an angle adjustment mechanism that supports a first sample stage holding a first substrate to a first stage so as to be able to change a direction of the first sample stage; a first driving device that drives the first stage in a first direction; a second driving device that drives a second sample stage holding a second substrate in a second direction not parallel to the first direction; and a carriage support table that supports the second sample stage in the first direction when the second substrate and the first substrate are brought into press contact with each other. In this case, the room temperature bonding apparatus can impose a larger load exceeding a withstand load of the second driving device on the first substrate and the second substrate.

Abstract: A device is provided with: a first substrate mainly containing silicon dioxide; a second substrate mainly containing silicon, compound semiconductor, silicon dioxide or fluoride; and a bonding functional intermediate layer arranged between the first substrate and the second substrate. The first substrate is bonded to the second substrate thorough room temperature bonding in which a sputtered first surface of the first substrate is contacted with a sputtered second surface of the second substrate via the bonding functional intermediate layer. Here, the material of the bonding functional intermediate layer is selected from among optically transparent materials which are oxide, fluoride, or nitride, the materials being different from the main component of the first substrate and different from the main component of the second substrate.

Abstract: In the case where an automatic reading file composed of plural kinds of detailed parameters stored in a transportable storage device whose attachment is detected has been already read in an apparatus, it is determined whether update, to a currently-read automatic reading file, of an automatic reading file stored in a storage section is carried out or not in accordance with a user's instruction, and is controlled so as to carry out a process. Namely, in the case where an automatic reading file has not been read yet, the automatic reading file stored in the storage section is updated to the currently-read automatic reading file without any condition. On the other hand, if an automatic reading file has been already read, the automatic reading file stored in the storage section may be edited on the basis of it.

Abstract: An inter-substrate material layer is formed between a first substrate and a second substrate to generate a bonding strength. A plurality of metal elements are present in the inter-substrate material layer. An interface element existence ratio of the plurality of metal elements is 0.07 or above. A device can be obtained in which substrates difficult to bond (for example, SiO2 substrates) are bonded at room-temperature to have practical bonding strength.

Abstract: A method of room-temperature bonding a plurality of substrates via an intermediate member, includes: forming the intermediate member on a surface to be bonded of the substrate by physically sputtering a plurality of targets; and activating the surface to be bonded by an ion beam. In this case, it is preferable that the target composed of a plurality of types of materials is physically sputtered. Since the materials of the intermediate member are sputtered from the plurality of targets arranged in various directions from the surface to be bonded of the substrate, the intermediate member can be uniformly formed on the surface to be bonded. Further, since the intermediate member is composed of the plurality of types of materials, the room-temperature bonding of substrates difficult to bond together when an intermediate member is composed of a single type of material can be performed without heating and excessively pressing the substrates during bonding.

Abstract: As a music equipment is connected to a music processing apparatus, necessary communication ports corresponding to the connected music equipment are automatically set in the processing apparatus. The thus-set communication ports are each assigned the name of the corresponding equipment so that the equipment and the communication ports can be associated with each other. Once the equipment is disconnected from the apparatus, the disconnected equipment is converted into a dummy state and displayed in a predetermined dummy display style. When a project file has been read which includes track data, identification information of a currently-set external equipment and parameters of the external equipment, the detected external equipment is associated with any one of external equipments which had been set for use at the time of storage of the project file. By transferring parameters, stored in a memory, to the external equipment that could be associated, parameter synchronization can be effected.

Abstract: A sound control apparatus is provided in a portable terminal for sounding a music tone in association with operation of the portable terminal, which is controlled by a main CPU. In the sound control apparatus, a memory memorizes music information representing a music tone and configuration information associated to a timbre of the music tone. An information acquiring section acquires the music information and the configuration information from the memory. A tone generating section is configured by the acquired configuration information to create a timbre specified by the configuration information. The tone generating section operates according to the acquired music information to generate the music tone being represented by the music information and having the specified timbre. A dedicated CPU is provided separately from the main CPU for controlling the memory, the information acquiring section and the tone generating section.