Laser processing system, jet observation apparatus , laser processing method, and jet observation method

The invention claimed is: 1. A laser processing system comprising: a nozzle including an emission opening configured to emit a jet of an assist gas along an optical axis of a laser beam, the nozzle being configured to forming a maximum point of velocity of the jet at a position away from the emission opening; a velocity sensor configured to measure the velocity of the jet; and a processor configured to acquire information representing a position of the maximum point based on output data of the velocity sensor. 2. The laser processing system of claim 1 , wherein the velocity sensor consecutively measures the velocity along the jet, wherein the processor acquires, as the information, a peak value of the consecutive output data output by the velocity sensor. 3. The laser processing system of claim 1 , further comprising a dummy workpiece disposed forward in a flow direction of the jet, wherein the velocity sensor measures the velocity between the emission opening and the dummy workpiece. 4. The laser processing system of claim 1 , wherein the velocity sensor includes: a hot-wire anemometer configured to measure the velocity of the jet in a contact manner; or a laser anemometer configured to measure the velocity of the jet in a non-contact manner. 5. The laser processing system of claim 1 , further comprising: a movement mechanism configured to move the nozzle and a workpiece relative to each other; and a movement controller configured to control the movement mechanism so as to dispose the nozzle with respect to the workpiece at a target position determined based on the information. 6. A method of laser process on a workpiece using the laser processing system of claim 1 , the method comprising emitting the jet from the emission opening of the nozzle and processing the workpiece with the laser beam, while disposing the nozzle with respect to a process portion of the workpiece at a target position determined based on the information. 7. A jet observation apparatus comprising: a velocity sensor configured to consecutively measure velocity of a supersonic jet of a gas emitted from an emission opening of a nozzle, along the supersonic jet; and a processor configured to acquire, as information representing a position of a maximum point of the velocity of the supersonic jet, a peak value of consecutive output data output by the velocity sensor, the maximum point being formed at the position away from the emission opening, the maximum point of velocity being formed in a Mach disk region where reflected waves of an assist gas reflected at a boundary between the supersonic jet and an atmosphere outside the supersonic jet interfere with each other. 8. A method of observing a jet, the method comprising: consecutively measuring velocity of a supersonic jet of a gas emitted from an emission opening of a nozzle, along the supersonic jet; and acquiring, as information representing a position of a maximum point of the velocity of the supersonic jet, a peak value of data obtained by consecutive measurement, the maximum point being formed at the position away from the emission opening, the maximum point of velocity being formed in a Mach disk region where reflected waves of an assist gas reflected at a boundary between the supersonic jet and an atmosphere outside the supersonic jet interfere with each other.