Founded in 1989, Standard Imaging has become a leading supplier of radiation calibration and quality assurance instruments for health care. Our product and service solutions support a broad range of radiation treatment applications, including dosimetry, brachytherapy, intensity modulated radiation therapy, image guided radiation therapy, and stereotactic radiosurgery.
Standard Imaging’s first major product offering was the HDR 1000 Well Chamber for use in brachytherapy quality assurance. Many complimentary and evolutionary product solutions followed, generating a practical, reliable, and innovative line of product solutions for the medical physicist. The MAX 4000 and CDX 2000B Electrometers, QA BeamChecker, Exradin Ion Chambers, HDR 1000 Plus and IVB 1000 Well Chambers, IMSure QA™ software, PIPSpro™ Software and QC-3 Phantom and the new Lucy® 3D QA Phantom are just a few of the inventive Standard Imaging products that are used by medical physicists, radiation oncologists and technologists at major research universities and hospitals worldwide. National and international government standardization laboratories, atomic energy agencies, and medical device manufacturers also utilize many of our products.
In early 2007, Standard Imaging will be occupying its new, energy efficient, eco-friendly 27,000 square foot corporate headquarters in Middleton, Wisconsin, less than a half mile from its current facility. With this new facility and related operations, the company is well positioned to expand its offerings in its current markets, as well as leveraging its core technologies and customer contacts into new opportunities.
Standard Imaging is actively led by three individuals who originally founded the company; their dedication to Standard Imaging, and its mission, are shared by its exceptional employees.
The Filmetrics F20 benchtop film thickness measurement tool is a general purpose instrument for measuring thickness and refractive index.
This product profile outlines Radiant’s Near-Eye Display Test Solution with Electronic Focus and how XRE lenses are used.
Dynamic characterization of MEMs devices is achieved by Micro System Analyzer MSA-650 IRIS.
Dr. Keith Paulsen
AZoOptics speaks to Dr. Keith Paulsen about the importance of breast cancer detection and the introduction of his team's deep-learning algorithm that associates spatial images of tissue optical properties with optical signal patterns measured during an imaging experiment or patient exam.
Prof. Simon Scheuring & Dr. Alma P. Perrino
AZoOptics speaks to Prof. Simon Scheuring & Dr. Alma P. Perrino about their recent research using a new line-scanning high-speed atomic force microscopy technique. The method helps characterize the single-molecule kinetics of wild-type bR (bR-WT) exposed to continuous light and short light pulses.
R. Bruce Weisman
AZoOptics interviews R. Bruce Weisman from Rice University in Texas, US, who has discovered fluorescence from silicon nanoparticles in cement and how it can be used to reveal early signs of damage in concrete structures.