LASER SYSTEM DELIVERING ULTRA-SHORT PULSES ALONG MULTIPLE BEAM DELIVERY PATHS

Organization Name

Unknown Organization

Inventor(s)

Matthew David Treiser of Mount Vernon NY (US)

LASER SYSTEM DELIVERING ULTRA-SHORT PULSES ALONG MULTIPLE BEAM DELIVERY PATHS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240036337 titled 'LASER SYSTEM DELIVERING ULTRA-SHORT PULSES ALONG MULTIPLE BEAM DELIVERY PATHS

Simplified Explanation

The abstract describes a laser system that includes a laser source generating ultra-short pulses. The system also includes a laser delivery assembly that receives the laser beam and consists of a beam splitter and at least one focusing lens. The beam splitter splits the laser beam into two paths, and the focusing lens focuses the laser beam from each path to a focal point on a predefined plane. The first beam delivery path intersects the predefined plane at a first angle, the second beam delivery path intersects the predefined plane at a second angle, and the first and second pulses from each path coincide at the focal point.

• The laser system generates ultra-short pulses of laser beam.
• A beam splitter splits the laser beam into two paths.
• Focusing lenses are used to focus the laser beam from each path to a focal point on a predefined plane.
• The first and second beam delivery paths intersect the predefined plane at different angles.
• The first and second pulses from each path coincide at the focal point.

Potential applications of this technology:

• Laser machining and cutting: The ultra-short pulses generated by the laser system can be used for precision machining and cutting of various materials.
• Laser spectroscopy: The precise focusing of the laser beam allows for accurate spectroscopic analysis of samples.
• Laser microfabrication: The system can be used for creating microstructures and patterns on surfaces.

Problems solved by this technology:

• Precise focusing: The system ensures that the laser beam is accurately focused on the predefined plane, allowing for precise control and manipulation of the laser energy.
• Coincident pulses: The coincidence of pulses from different beam delivery paths at the focal point enables efficient and controlled laser processing.

Benefits of this technology:

• High precision: The system allows for high precision laser processing due to the accurate focusing of the laser beam.
• Increased efficiency: The coincidence of pulses at the focal point increases the efficiency of laser processing.
• Versatility: The system can be used in various applications such as machining, spectroscopy, and microfabrication.

Original Abstract Submitted

a laser system includes a laser source generating a laser beam having ultra-short pulses; a laser delivery assembly optically receiving the laser beam and comprising: a beam splitter configured to split the laser beam between a first beam delivery path and a second beam delivery path; and at least one focusing lens optically coupled to the beam splitter and configured to focus the laser beam from each of the first beam delivery path and the second beam delivery path to a focal point on a predefined plane; wherein the first beam delivery path intersects the predefined plane at a first angle, the second beam delivery path intersects the predefined plane at a second angle, and a first pulse from the first beam delivery path and a second pulse from the second beam delivery path are coincident at the focal point.