Laser Beam Delivery Systems is a leading supplier of custom and standard laser beam systems for use in applications worldwide. Produced by the world's largest laser manufacturer, NCE Microsystems. Also a leader in the development of green laser technology, YAG Laser is manufactured in a joint venture with Toshiba Corporation. Able to provide high quality Laser Beam Delivery Systems and related components, YAG Laser is recognized as a premiere supplier of green laser technology to the research and diagnostic industry. Able to provide tailored Laser Beam Delivery Systems and components to meet your exact requirements.

Produced by the world's largest laser manufacturer, NCE Microsystems. Able to offer high quality laser systems and components. Able to serve the research, diagnostic and production laboratories that require state-of-the-art laser systems and components. YAG Laser is able to offer the technology for these applications. Also able to provide high volume, low cost services.

Developed by the world's largest laser manufacturer, NCE Microsystems. Able to provide high quality laser systems and components. Able to serve the research, diagnostic and manufacturing laboratories that require state-of-the-art laser systems and components. YAG Laser is able to provide tailored Laser Beam Delivery Systems and components, suitable for application to most mechanical and optical interfaces. Utilizing the latest technology for maximum performance, this company designs its laser durations and components, meeting customer specifications.

Developed by the world's largest optical manufacturer, FSL. FSL develops and manufactures the industry leading Q-switched, position sensitive and optoelectronic lasers. Using a novel methodology called "ulse cycling" this company designs the Laser Beam Delivery System with on-board pulse generators. These pulse generators use an algorithm to precisely control the laser energy, which in turn controls the laser power delivered. Consistent pulse generation minimizes power fluctuations, which in turn ensures higher on-board efficiencies. This method of Laser Beam Delivery Systems greatly reduces inter-interference, making the system more robust and error free.

Developed by a reputable company in the UK, ST Microsystems focuses on the creation of highly portable and easily installed lasers and instrumentation. The company has been in the forefront of the science and technology community for over 25 years developing cutting edge technologies used in many scientific disciplines. With ST's Laser Beam Delivery System you will be able to take your Laser Light into any location within the world and get results that are up to one thousand times more precise than those achievable using prior systems.

Developed by a company that is considered to be at the leading edge of Laser Beam Conditioning Systems the ST Laser Beam Conditioning System is based on their patented "Pulse Optimization Technology." This technology is comprised of the revolutionary principle that the position of the laser light beam can be optimized for any given application. Because this Laser Beam Conditioning System operates at a much lower temperature than most cooling systems, it allows for a far more effective and efficient system that can be easily installed. In addition, this novel method of Laser Beam Delivery enables a much greater degree of customization of the system, which gives the end user the ultimate level of Laser Beam Conditioning.

The principle of Laser Beam Delivery with ST utilizes two separate but connected high speed optical systems called the two independent optical beams or less. One of these, the Two Independent Optics (IOB) drives the pulsed laser beam through a very thin fiber. This method of delivering the laser beam involves the use of two mirrors along with a high speed control system. The mirrors used in this Laser Beam Delivery System are called the two diffractory mirrors.

The two diffractory mirrors work as a mechanical armature by imparting a rotary motion to the laser beam at a high frequency. This method of Laser Beam Delivery is extremely time efficient and allows the technician to schedule multiple runs with the same machine in a single day. The other of the two independent optics, the optical source drive, works by guiding the laser beam into a fiber or metallic sample where it is transformed via a fiber optic cable to the correct metallic surface. This Optical system is called the Optical System Drive (OSD). The OSD uses two independent OSS and a fiber optic control system to provide the necessary information to the microchip making it possible to process an exact, high volume part by utilizing a small footprint.