Laser

Laser (63)
Laser beam (7)
Laser characteristics (6)
Laser components (5)
Laser devices (7)
Laser technologies (3)
Laser types (5)

Synopsis: Photonics & laser: Photonics & laser generale: Laser: Laser:

That allows for far better detection of gases than more common lasers that operate in the near-infrared.

and is far better able to detect trace amounts of gas than lasers used in the past.

That allows for far better detection of gases than more common lasers that operate in the near-infrared.

and is far better able to detect trace amounts of gas than lasers used in the past.

and docks with the teats using a 3d camera and lasers. Another feature is a set of counter-rotating brushes that automatically clean the teats of dirt

#New 3d printed materials lighter than water and as strong as steel A Nanoscribe 3d printer can print models of the Empire state building in a space the width of a human hair using precision lasers.

The printer s mirror-focused laser shines on and hardens a droplet of liquid plastic on a slide.

A computer moves the plate under the laser, selectively hardening it, layer by layer, to match a digital 3d model.

They also are exploring using lasers to precisely shrink the plastic in specific patterns. Nam first had the idea for using Shrinky Dinks plastic to assemble nanomaterials after seeing a microfluidics device that used channels made of shrinking plastic.

This research outcome potentially allows for great flexibility in the design and optimization of electronic and optoelectronic devices like solar panels and telecommunication lasers.

Semiconductor lasers typically emit into elliptical beams that are really hard to work with and the new metasurface optical components could replace expensive optical systems used to circularize the beams.

This research outcome potentially allows for great flexibility in the design and optimization of electronic and optoelectronic devices like solar panels and telecommunication lasers.

the UVM team--with support from the National Science Foundation--built a scanning laser microscope,

This research outcome potentially allows for great flexibility in the design and optimization of electronic and optoelectronic devices like solar panels and telecommunication lasers.

This research outcome potentially allows for great flexibility in the design and optimization of electronic and optoelectronic devices like solar panels and telecommunication lasers.

#Mini X-ray source driven by laser light alone The physicists have built a miniature X-ray source. In so doing, the researchers from the Laboratory of Attosecond Physics of the Max Planck Institute of Quantum Optics

and the Technische Universität München (TUM) have captured three-dimensional images of ultrafine structures in the body of a living organism for the first time with the help of laser-generated X-rays.

By contrast, the laser-driven system in combination with phase-contrast X-ray tomography only requires a university laboratory to view soft tissues.

A laser-driven plasma wave accelerates and wiggles electrons, giving rise to a brilliant kev X-ray emission. his so-called betatron radiation is emitted in a collimated beam with excellent spatial coherence and remarkable spectral stability.

Our results suggest that laser-based X-ray technology offers the potential for filling the large performance gap between synchrotron

For the first time, the researchers combined their laser-driven X-rays with a phase-contrast imaging method developed by a team headed by Prof.

This laser-based imaging technique enables creation of three-dimensional images of objects. After each X-ray pulse, meaning after each frame,

Semiconductor lasers typically emit into elliptical beams that are really hard to work with and the new metasurface optical components could replace expensive optical systems used to circularize the beams.

#Laser scientists create portable sensor for nitrous oxide, methane Rice university scientists have created a highly sensitive portable sensor to test the air for the most damaging greenhouse gases.

and laser pioneer Frank Tittel and his group uses a thumbnail-sized quantum cascade laser (QCL) as well as tuning forks that cost no more than a dime to detect very small amounts of nitrous oxide and methane.

That allows for far better detection of gases than more common lasers that operate in the near-infrared.

and is far better able to detect trace amounts of gas than lasers used in the past.

Co-authors include Rice graduate student Wenzhe Jiang and former Rice Laser Science Group members Przemystaw Stefanski, Rafat Lewicki, Jiawei Zhang and Jan Tarka.

Mass-Selected Photoelectron Circular Dichroism (MS-PECD) uses circularly polarised light produced by a laser to ionise the molecules using a couple of photons to knock an electron out of the chiral molecule to leave a positively charged ion behind.

Instead of using lasers or cameras and algorithms or satellite GPS, this is guided by a cable that emits a electromagnetic signal.

The research, ield-Portable Smartphone Microscopy Platform for Wide-field Imaging and Sizing of Single DNA Molecules, was presented at the Optical Society Conference on Laser and Electro optics (CLEO) 2015 h

In my own work as a chemistry researcher, my group invented a laser the size of a virus particle,

These tiny lasers are promising light sources that can be used to send and receive data with high bandwidths as well as to detect trace molecules or bio-agents.

2015news and information Nanometric sensor designed to detect herbicides can help diagnose multiple sclerosis June 23rd, 2015sweeping lasers snap together nanoscale geometric grids:

2015discoveries Nanometric sensor designed to detect herbicides can help diagnose multiple sclerosis June 23rd, 2015sweeping lasers snap together nanoscale geometric grids:

2015announcements Nanometric sensor designed to detect herbicides can help diagnose multiple sclerosis June 23rd, 2015sweeping lasers snap together nanoscale geometric grids:

2015imaging Robust new process forms 3-D shapes from flat sheets of graphene June 23rd, 2015sweeping lasers snap together nanoscale geometric grids:

2015robust new process forms 3-D shapes from flat sheets of graphene June 23rd, 2015sweeping lasers snap together nanoscale geometric grids:

4-D printing to advance chemistry, materials sciences and defense capabilities June 18th, 2015discoveries Nanometric sensor designed to detect herbicides can help diagnose multiple sclerosis June 23rd, 2015sweeping lasers snap together

#Living lasers made by injecting oil droplets into human cells Light fantastic (Image: Matja Humar and Seok Hyun Yun) Individual cells have been turned into tiny lasers. t actually super-easy,

says Matja Humar of Harvard Medical school. The feat allows cells to be labelled and monitored more accurately,

they performed the same function as the oil droplets, emitting laser light when excited. The final way involved exploiting the fatty droplets that exist naturally within living cells. e all have these fat cells inside our tissue.

We are made all of lasers, says Humar. The first two approaches were tested on human cells, the last on pig cells.

However laser light is characterised by having an extremely narrow range of wavelengths. That means it is theoretically possible,

to give every single cell in the human body a unique, identifiable laser signature, Humar says.

which focuses exclusively on the macrophage route to converting cells into lasers, goes further in laying out its potential applications.

Funded through a National Science Foundation Major Research Instrumentation grant, the new highly sensitive, laser-based instrument provides scientists with a method to more accurately measure global human exposure to mercury.

titled"Deployment of a sequential two-photon laser-induced fluorescence sensor for the detection of gaseous elemental mercury at ambient levels:

International team of scientists constructs first germanium-tin semiconductor laser for silicon chips The transfer of data between multiple cores as well as between logic elements and memory cells is regarded as a bottleneck in the fast-developing computer technology.

Typical semiconductor lasers for telecommunication systems made of gallium arsenide for example however are costly and consist of elements from main groups III

Such laser components cannot therefore be applied directly onto silicon. They have to be produced externally at great effort

The scientists at Julich's Peter Grunberg Institute have succeeded now for the first time in creating a real direct main group IV semiconductor laser by combining germanium and tin

The functioning of the laser is limited so far to low temperatures of up to minus 183 degrees Celsius however.

Siegfried Mantl's group at PGI-9 Stephan Wirths applied the laser directly onto a silicon wafer

Phd student Richard Geiger fabricated the laser structures there. That way we were able to demonstrate that the germanium-tin compound can amplify optical signals as well as generate laser light reports Dr. Hans Sigg from the Laboratory for Micro and Nanotechnology.

The laser was excited optically for the demonstration. Currently the scientists in Dr. Dan Buca's group at Julich are working on linking optics and electronics even more closely.

The next big step forward will be generating laser light with electricity instead and without the need for cooling if possible.

The aim is to create an electrically pumped laser that functions at room temperature. The laser beam is not visible to the naked eye.

Gesn absorbs and emits light in a wavelength range of about 3 micrometres. Many carbon compounds such as greenhouse gases

Arrayat the fair, the FBH exhibits novel dual-wavelength diode lasers that are suitable for use in miniaturized, portable laser measurement systems for Raman spectroscopy applications.

Wavelength selection is realized by separately addressable sections within the laser. The innovative diode laser chip is ideally applicable for SERDS (Shifted Excitation Raman Difference Spectroscopy),

On a footprint of less than 10 cm2, the micro module integrates a 1064 nm distributed Bragg reflector (DBR) tapered laser,

For rapid prototyping applications the FBH has developed DBR ridge waveguide (RW) lasers with 24 individually addressable emitters featuring a wavelength spacing>0. 3 nm and a spectral width<1 pm.

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