Abstract: The invention relates to a composition for the production of CO2, the use of a composition for the production of CO2 for an insect trap, in particular for an insect trap for attracting blood-sucking insects and arthropods, and a method for the production of CO2. The composition comprises a component a), a component b), and a component c). Component a) comprises at least a first yeast strain, which has a low tolerance of less than 100 g of alcohol per liter. Component b) comprises at least one second yeast strain, which has a high tolerance of greater than 100 g of alcohol per liter. Component c) comprises at least one nutrient source for the at least one first yeast strain and/or for the at least one second yeast strain, wherein component c) is being formed by a turbo yeast or by a yeast extract.

Abstract: The invention relates to an apparatus 100, 200, 300, 700 and a method 400 for machining a workpiece 101 with a laser beam 102. The apparatus 100, 200, 300, 700 comprises a machining unit 103 configured to provide a pressurized fluid jet 104 onto the workpiece 101 and to couple the laser beam 102 through at least one optical element 105 into the fluid jet 104 towards the workpiece 101. Further, it comprises a sensing unit 107 arranged to receive a laser-induced electromagnetic radiation 106 propagating away from the workpiece 101 through the fluid jet 104 and through at least one optical element, and configured to convert the received radiation 106 into a signal 108. The apparatus 100, 200, 300, 700 also comprises a signal processing unit 109 configured determine a state of machining the workpiece 101 based on the signal 108.

Abstract: A method for determining a spatial position of a liquid jet, in particular of a liquid jet for optically guiding a laser beam, comprises the steps: providing a collision object having a measuring point for interacting with the liquid jet, detecting a state of the liquid jet in a first configuration between collision object and liquid jet, changing the configuration so that the state of the liquid jet changes, detecting the configuration change between the first and second configuration.

Abstract: The invention relates to a machining head for coupling a laser beam into a liquid jet. This machining head comprises an optical unit having at least one optical element for focusing the laser beam, and a coupling unit having a liquid chamber that is delimited by a wall, wherein a nozzle having a nozzle opening for generating a liquid jet is disposed in the wall. In a state in which the coupling unit is connected to the optical unit, the laser beam that is capable of being focused by the optical unit is directable in a beam direction through the liquid chamber of the coupling unit into the nozzle opening, and is capable of being coupled into the liquid jet that is generatable by the nozzle and runs in the beam direction.

Abstract: The invention relates to an apparatus 100, 200, 300, 700 and a method 400 for machining a workpiece 101 with a laser beam 102. The apparatus 100, 200, 300, 700 comprises a machining unit 103 configured to provide a pressurized fluid jet 104 onto the workpiece 101 and to couple the laser beam 102 through at least one optical element 105 into the fluid jet 104 towards the workpiece 101. Further, it comprises a sensing unit 107 arranged to receive a laser-induced electromagnetic radiation 106 propagating away from the workpiece 101 through the fluid jet 104 and through at least one optical element, and configured to convert the received radiation 106 into a signal 108. The apparatus 100, 200, 300, 700 also comprises a signal processing unit 109 configured determine a state of machining the workpiece 101 based on the signal 108.

Abstract: The invention relates to a machining head for coupling a laser beam into a liquid jet. This machining head comprises an optical unit having at least one optical element for focusing the laser beam, and a coupling unit having a liquid chamber that is delimited by a wall, wherein a nozzle having a nozzle opening for generating a liquid jet is disposed in the wall. In a state in which the coupling unit is connected to the optical unit, the laser beam that is capable of being focused by the optical unit is directable in a beam direction through the liquid chamber of the coupling unit into the nozzle opening, and is capable of being coupled into the liquid jet that is generatable by the nozzle and runs in the beam direction.

Abstract: A method for determining a spatial position of a liquid jet, in particular of a liquid jet for optically guiding a laser beam, comprises the steps: providing a collision object having a measuring point for interacting with the liquid jet, detecting a state of the liquid jet in a first configuration between collision object and liquid jet, changing the configuration so that the state of the liquid jet changes, detecting the configuration change between the first and second configuration.