Micromachining workstation produces 2D and 3D patterning and writing

July 22, 2010
A micromachining workstation for high-precision laser direct-writing and patterning can be integrated with several CW, nanosecond, and femtosecond lasers to produce 2D or 3D patterning and writing on virtually any material.
Content Dam Etc Medialib Platform 7 Laser Focus World Articles Online Exclusive Articles 2010 Global 60347
Content Dam Etc Medialib Platform 7 Laser Focus World Articles Online Exclusive Articles 2010 Global 60347
Content Dam Etc Medialib Platform 7 Laser Focus World Articles Online Exclusive Articles 2010 Global 60347
Content Dam Etc Medialib Platform 7 Laser Focus World Articles Online Exclusive Articles 2010 Global 60347
Content Dam Etc Medialib Platform 7 Laser Focus World Articles Online Exclusive Articles 2010 Global 60347

A micromachining workstation for high-precision laser direct-writing and patterning can be integrated with several CW, nanosecond, and femtosecond lasers to produce 2D or 3D patterning and writing on virtually any material. It includes linear stages and can produce submicron resolution on significantly large surface areas of the substrates.
Newport (MKS Instruments)
Irvine, CA

www.newport.com/LDW

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PRESS RELEASE

Newport’s New Micromachining Workstation for Laser Direct-Write Processing

Irvine, CA – September 24, 2009 – Newport Corporation, a worldwide leader in laser and photonic solutions, introduces the new micromachining workstation specifically designed for high precision laser direct-writing (LDW) and patterning. The flexible device can be integrated with several lasers to produce 2- or 3-dimensional patterning and writing on virtually any material. It is simple to assemble and easy to couple with continuous-wave (CW), nanosecond (ns), and femtosecond (fs) lasers. The advanced workstation can also be used to produce submicron resolution on significantly large surface areas of the substrates.

The micromachining workstation can be customized with different lasers to perform surface and volume patterning in semiconductors, dielectrics, and biocompatible materials. The workstation configuration includes high precision linear stages which allow laser direct-writing with sub-micron resolution. This solution is primarily designed for prototyping of complex 2- and 3-dimensional microstructures in diverse fields such as photonics, microelectronics, and tissue engineering.

Newport’s new workstation utilizes standard optics, opto-mechanics, motorized motion, and up-to-date laser products to provide high performance and accuracy. Its user-friendly interface allows the user to create diverse patterns on many substrates and the intuitive software allows the researcher to easily collect and analyze the data. Newport also offers a detailed list of compatible parts that can be used to customize the workstation to meet the users’ specific application requirements.

Keshav Kumar, Product Marketing Manager, Optics & TAC Products, Newport Corporation, notes, “Our new micromachining workstation is a preconfigured solution for the researcher. It integrates the existing photonics components using proven physical principles associated with two-photon polymerization (TPP) which will provide better control over materials structuring on a very precise level. We are proud to introduce this exciting new, easy-to-use and economical solution to the research community.”

For more information about Newport’s Micromachining Workstation for LDW Processing, please visit: www.newport.com/LDW.

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