Abstract: An optical phase array. The optical phase array includes a sending and/or receiving surface with a regular arrangement of waveguiding antennas. Electromagnetic radiation is decoupleable from the antennas and/or coupleable into the antennas. At least one antenna includes at least partially amorphous silicon.

Abstract: A method for producing a micromechanical component having a substrate and a cap that are connected to each other and that enclose a first cavity, where a first pressure prevails inside the first cavity and a first gas mixture having a first chemical composition is enclosed within the first cavity, includes, in a first method step, developing in the substrate or cap an access opening connecting the first cavity to an environment of the micromechanical component, in a second method step, setting the first pressure and/or the first chemical composition in the first cavity, in a third method step, sealing the access opening using a laser by introduction of energy or heat into an absorbing part of the substrate or the cap, and, in a fourth method step, performing a thermal treatment of the substrate or the cap, thereby reducing temperature gradients in the substrate or in the cap.

Abstract: A method for producing a micromechanical component having a substrate and a cap that are connected to each other and that enclose a first cavity, where a first pressure prevails inside the first cavity and a first gas mixture having a first chemical composition is enclosed within the first cavity, includes, in a first method step, developing in the substrate or cap an access opening connecting the first cavity to an environment of the micromechanical component, in a second method step, setting the first pressure and/or the first chemical composition in the first cavity, in a third method step, sealing the access opening using a laser by introduction of energy or heat into an absorbing part of the substrate or the cap, and, in a fourth method step, performing a thermal treatment of the substrate or the cap, thereby reducing temperature gradients in the substrate or in the cap.

Abstract: A method for manufacturing a micromechanical component including a substrate and a cap connected to the substrate, the cap, together with the substrate, enclosing a first cavity, a first pressure prevailing and a first gas mixture having a first chemical composition being enclosed in the first cavity. An access opening connecting the first cavity to surroundings of the micromechanical component is formed in the substrate or in the cap. The first pressure and/or the first chemical composition is adjusted in the first cavity. The access opening is sealed by introducing energy or heat into an absorbing part of the substrate or of the cap with the aid of a laser. A layer for protecting the sealed access opening is applied to or deposited on or grown on a material area, which transitions into a liquid aggregate state and then transitions into a solid aggregate state and seals the access opening.

Abstract: A method for manufacturing a micromechanical component is provided including a substrate and including a cap, which is connected to the substrate and, together with the substrate, encloses a first cavity, a first pressure prevailing and a first gas mixture having a first chemical composition being enclosed in the first cavity, the cap together with the substrate enclosing a second cavity, a second pressure prevailing and a second gas mixture having a second chemical composition being enclosed in the second cavity. A recess situated essentially between the first cavity and the second cavity is formed for diverting at least one first particle type of the first gas mixture and/or at least one second particle type of the second gas mixture.

Abstract: A method for manufacturing a micromechanical component including a substrate and including a cap, which is connected to the substrate and, together with the substrate, encloses a first cavity, a first pressure prevailing and a first gas mixture having a first chemical composition being enclosed in the first cavity. An access opening connecting the first cavity to surroundings of the micromechanical component is formed in the substrate or in the cap. The first pressure and/or the first chemical composition is adjusted in the first cavity. The access opening is sealed by introducing energy or heat via laser into an absorbing part of the substrate or the cap. During the step for forming the access opening, a first access opening section is formed generally perpendicularly to a surface of the substrate or the cap, and a second access opening section is formed generally perpendicularly to and in parallel to the surface.

Abstract: A method is provided for manufacturing a micromechanical component including a substrate and a cap connected to the substrate and together with the substrate enclosing a first cavity, a first pressure prevailing and a first gas mixture with a first chemical composition being enclosed in the first cavity. An access opening, connecting the first cavity to surroundings of the micromechanical component, is formed in the substrate or in the cap. The first pressure and/or the first chemical composition are adjusted in the first cavity. The access opening is sealed by introducing energy and heat into an absorbing part of the substrate or the cap with the aid of a laser. A recess is formed in a surface of the substrate or of the cap facing away from the first cavity in the area of the access opening for reducing local stresses occurring at a sealed access opening.

Abstract: A method for manufacturing a micromechanical component including a substrate and a cap connected to the substrate and together with the substrate enclosing a first cavity, a first pressure prevailing and a first gas mixture with a first chemical composition being enclosed in the first cavity. An access opening, connecting the first cavity to surroundings of the micromechanical component, is formed in the substrate or the cap. The first pressure and/or the first chemical composition is adjusted in the first cavity. The access opening is sealed by introducing energy and heat into an absorbing part of the substrate or cap with the aid of a laser. A recess is formed in a surface of the substrate or of the cap facing away from the first cavity in the area of the access opening for accommodating a material area of the substrate or the cap converted into a liquid aggregate state.

Abstract: A method is provided for manufacturing a micromechanical component including a substrate and including a cap, which is connected to the substrate and, together with the substrate, encloses a first cavity, a first pressure prevailing and a first gas mixture having a first chemical composition being enclosed in the first cavity. A first crystalline layer or a first amorphous layer or a first nanocrystalline layer or a first polycrystalline layer is deposited on or grown on a surface of the substrate or of the cap. A recess is introduced into the substrate or into the cap for accommodating the first crystalline layer or the first amorphous layer or the first nanocrystalline layer or the first polycrystalline layer.

Abstract: A method is provided for manufacturing a micromechanical component including a substrate and including a cap, which is connected to the substrate and, together with the substrate, encloses a first cavity, a first pressure prevailing and a first gas mixture having a first chemical composition being enclosed in the first cavity. A first crystalline layer or a first amorphous layer or a first nanocrystalline layer or a first polycrystalline layer is deposited on or grown on a surface of the substrate or of the cap. A recess is introduced into the substrate or into the cap for accommodating the first crystalline layer or the first amorphous layer or the first nanocrystalline layer or the first polycrystalline layer.

Abstract: A method for manufacturing a micromechanical component is provided including a substrate and including a cap, which is connected to the substrate and, together with the substrate, encloses a first cavity, a first pressure prevailing and a first gas mixture having a first chemical composition being enclosed in the first cavity, the cap together with the substrate enclosing a second cavity, a second pressure prevailing and a second gas mixture having a second chemical composition being enclosed in the second cavity. A recess situated essentially between the first cavity and the second cavity is formed for diverting at least one first particle type of the first gas mixture and/or at least one second particle type of the second gas mixture.

Abstract: A method for manufacturing a micromechanical component including a substrate, and a cap connected to the substrate, the cap, together with the substrate, encloses a cavity, a pressure prevailing and a gas mixture having a first chemical composition being enclosed in the cavity. An access opening connecting the cavity to surroundings of the micromechanical component is formed in the substrate or in the cap. The pressure and/or the chemical composition is adjusted in the cavity. The access opening is sealed by introducing energy or heat into an absorbing part of the substrate or the cap with the aid of a laser. A first crystalline, amorphous, nanocrystalline, or polycrystalline layer is deposited or grown on a surface of the substrate or of the cap, and/or a substrate including a second crystalline, amorphous, nanocrystalline, and/or polycrystalline layer, and/or a cap including the second crystalline, amorphous, nanocrystalline, and/or polycrystalline layer is provided.

Abstract: A method is described for manufacturing a micromechanical component including a substrate and including a cap, which is connected to the substrate and, together with the substrate, encloses a first cavity, a first pressure prevailing and a first gas mixture having a first chemical composition being enclosed in the first cavity. An access opening connecting the first cavity to surroundings of the micromechanical component is formed in the substrate or cap. The first pressure and/or the first chemical composition is adjusted in the first cavity. The access opening is sealed by introducing energy or heat into an absorbing part of the substrate or cap using a laser. A layer is deposited or grown on a surface of the substrate or the cap in the area of the access opening to produce a second mechanical stress, which counteracts a first mechanical stress occurring in the case of sealed access opening.

Abstract: A method for manufacturing a micromechanical component including a substrate and a cap connected to the substrate, the cap, together with the substrate, enclosing a first cavity, a first pressure prevailing and a first gas mixture having a first chemical composition being enclosed in the first cavity. An access opening connecting the first cavity to surroundings of the micromechanical component is formed in the substrate or in the cap. The first pressure and/or the first chemical composition is adjusted in the first cavity. The access opening is sealed by introducing energy or heat into an absorbing part of the substrate or of the cap with the aid of a laser. A layer for protecting the sealed access opening is applied to or deposited on or grown on a material area, which transitions into a liquid aggregate state and then transitions into a solid aggregate state and seals the access opening.

Abstract: A method for manufacturing a micromechanical component including a substrate and including a cap, which is connected to the substrate and, together with the substrate, encloses a first cavity, a first pressure prevailing and a first gas mixture having a first chemical composition being enclosed in the first cavity. An access opening connecting the first cavity to surroundings of the micromechanical component is formed in the substrate or in the cap. The first pressure and/or the first chemical composition is adjusted. The access opening is sealed by introducing energy or heat into an absorbing part of the substrate or the cap with the aid of a laser. A getter material is deposited on or grown on a surface of the substrate facing the first cavity and/or a surface of the cap facing the first cavity for further adjustment of the first pressure and/or of the first chemical composition.

Abstract: A method for manufacturing a micromechanical component including a substrate and a cap connected to the substrate and together with the substrate enclosing a first cavity, a first pressure prevailing and a first gas mixture with a first chemical composition being enclosed in the first cavity. An access opening, connecting the first cavity to surroundings of the micromechanical component, is formed in the substrate or the cap. The first pressure and/or the first chemical composition is adjusted in the first cavity. The access opening is sealed by introducing energy and heat into an absorbing part of the substrate or cap with the aid of a laser. A recess is formed in a surface of the substrate or of the cap facing away from the first cavity in the area of the access opening for accommodating a material area of the substrate or the cap converted into a liquid aggregate state.

Abstract: A method for manufacturing a micromechanical component including a substrate and including a cap, which is connected to the substrate and, together with the substrate, encloses a first cavity, a first pressure prevailing and a first gas mixture having a first chemical composition being enclosed in the first cavity. An access opening connecting the first cavity to surroundings of the micromechanical component is formed in the substrate or in the cap. The first pressure and/or the first chemical composition is adjusted in the first cavity. The access opening is sealed by introducing energy or heat via laser into an absorbing part of the substrate or the cap. During the step for forming the access opening, a first access opening section is formed generally perpendicularly to a surface of the substrate or the cap, and a second access opening section is formed generally perpendicularly to and in parallel to the surface.