Holographix LLC is the industry leader in nano- and micro-replication. Our proprietary replication technology enables us to produce state-of-the-art structured surfaces and optical devices that are used in a wide array of industries.
Over the past 30 years, Holographix has earned a reputation for providing our customers with outstanding custom designed and manufactured photonic solutions for a wide range of applications. Custom binary and blazed transmission and reflection gratings, microlens arrays, optical diffusers, and diffractive waveguides are our main focus. With a company-wide emphasis on quality, Holographix maintains a rigorous ISO 9001:2008 certified Quality Assurance program.
Holographix LLC is the preferred manufacturer of custom optical components and optical assemblies for a wide range of industries, including: spectroscopy, life sciences, semiconductor, aerospace, defense, display, telecommunications, metrology, consumer electronics, and precision measurement.
Holographix LLC designs and manufactures state-of-the-art custom transmission and reflection gratings (both binary and blazed), as well as microlens arrays, optical diffusers, and diffractive waveguides. All products are produced using our proprietary cost-effective replication technology, which allows us to manufacture durable, and repeatable, high quality products and assemblies for the most demanding applications.
Our 15,000 square foot facility is equipped with Class 1000 cleanrooms, custom replication labs, thin-film coating chambers and sputtering systems, phase-shifting interferometers, laser-based alignment and measurement systems, and spectrophotometers. Holographix uses a variety of software tools for modeling performance of the optical products that we manufacture.
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An Interview with AES Mid-Career Award Recipient Jason Dwyer
July 25th 2024Jason Dwyer of the University of Rhode Island has been named the recipient of the American Electrophoresis Society’s Mid-Career Award, which honors exceptional contributions to the field of electrophoresis, microfluidics, and related areas by an individual who is currently in the middle of their career.
Glucose's Impact on Brain Cancer Cells Unveiled Through Raman Imaging
July 25th 2024Researchers have used Raman spectroscopy and chemometric methods to reveal how glucose affects normal and cancerous brain cell metabolism. Their findings highlight specific biomarkers that can distinguish metabolic changes, potentially aiding in cancer research and treatment.