As the fact of higher CO2 (Carbon Dioxide) emission threatens human health can't be ignored, worldwide serious concern has been evoked.
American Imaging Management (AIM), an operating subsidiary of WellPoint, Inc., and a leading radiology benefit management and technology company with health plan clients representing over 20 million consumers, has introduced an enhanced Patient Safety Program to increase awareness of radiation dose associated with advanced imaging procedures, such as computed tomography (CT) scans and positron emission tomography (PET) scans.
QPC Lasers, Inc., a world leader in the design and manufacture of high brightness, high power semiconductor lasers for the consumer electronics, industrial, defense, and medical markets, announces that it was granted a new patent from the United States Patent and Trademark Office. The company now holds seven issued patents and nine patents pending.
In the world of fiber optic splicing, it’s been the choice of two technologies: electric arc fusion or filament splicing. Not anymore.
Observations from NASA's Rossi X-ray Timing Explorer (RXTE) have revealed that the youngest known pulsing neutron star has thrown a temper tantrum. The collapsed star occasionally unleashes powerful bursts of X-rays, which are forcing astronomers to rethink the life cycle of neutron stars.
Johnson Medtech, the medical products network of Johnson Electric, one of the world’s largest providers of motion actuators, today announced its participation in creating the neuroArm, the world’s first MRI-compatible image-guided surgical robot capable of both microsurgery and stereotaxy.
Luna Innovations Incorporated announces its highly anticipated tunable laser product, the Phoenix 1000, under its Luna Technologies brand of test and measurement products.
Standard microscopy and visible light imaging techniques cannot peer into the dark and murky centers of dense-liquid jets, which has hindered scientists in their quest for a full understanding of liquid breakup in devices such as automobile fuel injectors.
X-rays have been used for decades to take pictures of broken bones, but scientists at the U.S. Department of Energy's (DOE) Argonne National Laboratory and their collaborators have developed a lensless X-ray technique that can take images of ultra-small structures buried in nanoparticles and nanomaterials, and features within whole biological cells such as cellular nuclei.
While pondering the challenges of distinguishing one nano-sized probe image from another in a mass of hundreds or thousands of nanoprobes, researchers at Georgia Tech and Emory University made an interesting observation. The tiny, clustered dots of light looked a lot like a starry sky on a clear night.
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