Researchers at the University of Rochester, Institute of Optics have discovered a way to make liquid flow vertically upward along a silicon surface, overcoming the pull of gravity, without pumps or other mechanical devices.
In a paper in the journal Optics Express, professor Chunlei Guo and his assistant Anatoliy Vorobyev demonstrate that by carving intricate patterns in silicon with extremely short, high-powered laser bursts, they can get liquid to climb to the top of a silicon chip like it was being sucked through a straw. Continue Reading »
Biolase Technology Inc. said Tuesday it received clearance to begin selling a handheld laser for use in dental cleaning procedures.
Biolase said the iLase diode laser has been cleared by the Food and Drug Administration. The laser is the size of a large pen and is operated by hand, with no foot pedals or cords. The iLase can be used in 25 different procedures, including treating gingivitis and cleaning between the gums and teeth to treat periodontal disease, the company said.
Carbon Nanotube Speakers Could Be Powered by Lasers, Blend into Windows and Transform Noisy Spaces into Peaceful Sanctums
A UT Dallas team’s study published in the Journal of Applied Physics expands the extraordinary capabilities of nanotechnology to include laser-powered acoustic speakers made from assemblies of carbon nanotubes.
The study confirms earlier research that carbon nanotubes that are stretched into sheets and electrically powered can produce intense sound, but researchers at UT Dallas’ Alan G. MacDiarmid NanoTech Institute have made some important advancements. Continue Reading »
Bruce Tromberg (right), director of the Beckman Laser Institute, and UCI oncologists John Butler, David Hsiang and Rita Mehta (from left) are evaluating a breast imaging device that produces metabolic “fingerprints.”
In 2003, researchers at UC Irvine’s Beckman Laser Institute received a $7 million grant from the National Cancer Institute to standardize use of a laser imaging device they had created for better detection and diagnosis of breast cancer. The investment is beginning to pay off.
In January, the researchers reported in the journal Radiology that this laser breast scanner can accurately distinguish between malignant and benign growths, possibly offering an easy, noninvasive way to tell whether breast tumors warrant aggressive treatment. The study involved 60 subjects and will be replicated with a larger test group. Continue Reading »
Sarah O’Hana is a silversmith with a difference, she fuses art with science to make jewellery using an industrial laser.
As part of her doctorate at Manchester University, she discovered how to use a laser to mark vibrant colours onto titanium, to produce a range of unique and contemporary jewellery.
One of the most striking images from The Terminator was the weapon he carried and used in his first attempt on Sarah Connor's life: the .45 Longslide, with laser sighting. The gun was likewise such a striking presence on screen it was used on the film's poster.
Terminator was released in 1984, and while laser sights on weapons are common now, when the film was first shown the red laser was able to communicate something subtle and powerful to the audience: this is a machine, deadly accurate and futuristic. It made the Terminator seem other-worldly and terrifying.
Arstechnica found the true story behind the terminator’s laser-sighted gun. It is a gentleman named Ed Reynolds who created that laser. At the time, he has to use He Ne laser, which needs a high voltage power supply.
Jenoptik has opened the doors to a new laser application centre based in the the southern Korean city of Pyeongtaek. The company has invested $4.4 million (€3.4 million) in the centre, which houses laser processing systems ideal for customers looking to do everything from initial testing through to pilot and small production runs. New laser application centre targets the electronics, photovoltaics and flat-panel display markets
Tokyo, Japan, March 8, 2010 – Sony Corporation ('Sony') today announced the development of a RGB laser light source module suitable for large screen projectors such as digital cinema projectors. The module incorporates high power lasers of the three primary colors: Red, Green and Blue (RGB) with a combined output power of 21W (equivalent to 5,000 lumens), in a single package measuring just 530cc, among the industry's smallest.
The newly developed RGB laser module uses semiconductor diodes for the red and blue lasers, and a compact, high power solid-state SHG laser for the green. Both the red and green lasers were developed internally by Sony. The three lasers generate output power of 10W for red, 6W for green, and 5W for blue, resulting in a total of 21W. Furthermore, energy conversion ratios for the lasers range from 15 to 22% (18% on average), representing extremely high efficiency for power visible lasers. This high energy conversion ratio also realizes low energy consumption within the module itself.
On March 4, 2010 IBM scientists today unveiled a significant step towards replacing electrical signals that communicate via copper wires between computer chips with tiny silicon circuits that communicate using pulses of light. As reported in the recent issue of the scientific journal Nature, this is an important advancement in changing the way computer chips talk to each other.
The report on this work, entitled “Reinventing avalanche photodetectors for on-chip optical interconnects” by Solomon Assefa, Fengnian Xia and Yurii A. Vlasov of IBM’s T.J. Watson Research Center in Yorktown Heights, N.Y. is published in March 4 issue of the journal Nature.
