There are a number of reasons why it’s best to invest in good quality furnishings. If you want to make your home look pretty and you want to get some of the best deals then always take your time to pick our furnishing options that are well known in the market. If you’re worried about ...
Posted on 22 June 2018 | 7:57 pm
Every piece of information about a star is always interesting and if it’s a Hollywood star like Christian Capozzoli then it’s even more interesting because most Hollywood stars are famous worldwide. If you are eager to see information more than just the celebrity net worth wiki is not the place for you to be. While ...
Posted on 22 June 2018 | 5:11 pm
In the photoelectric effect, a photon ejects an electron from a material. Researchers at ETH have now used attosecond laser pulses to measure the time evolution of this effect in molecules. From their results they can deduce the exact location of a photoionization event.
Posted on 22 June 2018 | 11:40 am
Modern microscopy has given scientists a front-row seat to living, breathing biology in all its technicolor glory. But access to the best technologies can be spotty.
Posted on 21 June 2018 | 4:22 pm
A new microscope system can image living tissue in real time and in molecular detail, without any chemicals or dyes, report researchers at the University of Illinois.
Posted on 20 June 2018 | 4:14 pm
An active field of research, laser optical trapping works to control the movement and position of particles of different sizes and shapes. The ability to move small particles in a precise and controlled manner is important to both basic and applied science. For example, the ability to control the movement of single atoms can be used to realize quantum computing, and the research also contributes to the study of biological specimens and pollutants.
Posted on 20 June 2018 | 4:08 pm
Manipulating light in a variety of ways—shrinking its wavelength and allowing it to travel freely in one direction while stopping it cold in another—hyperbolic metamaterials have wide application in optical communications and as nanoparticle sensors. But some of the same optical properties that make these metamaterials so appealing make them frustratingly difficult to evaluate.
Posted on 19 June 2018 | 12:21 pm
Place a chunk of the clear mineral Iceland spar on top of an image and suddenly you'll see double, thanks to a phenomenon called double refraction—a result of a quality of the crystal material called optical anisotropy. Beyond just a nifty trick, materials with optical anisotropy are vital for a variety of devices such as lasers, liquid-crystal displays, lens filters and microscopes.
Posted on 19 June 2018 | 11:10 am
Researchers at the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) have developed a new technique to squeeze infrared light into ultra-confined spaces, generating an intense, nanoscale antenna that could be used to detect single biomolecules.
Posted on 15 June 2018 | 6:00 pm
Using X-ray laser technology, a team led by researchers of the Paul Scherrer Institute PSI has recorded one of the fastest processes in biology. In doing so, they produced a molecular movie that reveals how the light sensor retinal is activated in a protein molecule. Such reactions occur in numerous organisms that use the information or energy content of light – they enable certain bacteria to produce energy through photosynthesis, initiate the process of vision in humans and animals, and regulate adaptations to the circadian rhythm. The movie shows for the first time how a protein efficiently controls the reaction of the embedded light sensor. The images, now published in the journal Science, were captured at the free-electron X-ray laser LCLS at Stanford University in California. Further investigations are planned at SwissFEL, the new free-electron X-ray laser at PSI. Besides the scientists from Switzerland, researchers from Japan, the USA, Germany, Israel, and Sweden took part in this study.
Posted on 15 June 2018 | 12:14 pm
The Hong Kong Polytechnic University (PolyU) has developed a novel micro-embossing device for manufacturing precision glass lenses with high image quality. The lenses have the resolution required for state-of-the-art optical instruments and devices in varied fields including astronomy, national defence, medical scanning, and consumer products such as cameras and mobile phones. The invention can emboss ultra-precise optical microstructures in glass in an environmentally friendly way, saving electric power by 60 times and reducing manufacturing cost by two-thirds compared to conventional machines.
Posted on 14 June 2018 | 11:14 am
One of the most vital research paths in genetics is the relationship between genes and embryonic growth. Noninvasive, whole-body 3-D imaging of embryos is highly important for establishing these relationships in order to determine the impact of specific genes on development. Mice are a widespread research model in genetics, but capturing 3-D imagery of mouse fetal development requires higher resolution and higher throughput than conventional micro computed tomography (micro-CT) can provide.
Posted on 13 June 2018 | 2:36 pm
A Virginia Commonwealth University researcher has developed a procedure for identifying the source of cells present in a forensic biological sample that could change how cell types are identified in samples across numerous industries.
Posted on 12 June 2018 | 2:26 pm
Every time we send an e-mail, a tweet, or stream a video, we rely on laser light to transfer digital information over a complex network of optical fibers. Dozens of high-performance lasers are needed to fill up the bandwidth and to squeeze in an increasing amount of digital data. Researchers have now shown that all these lasers can be replaced by a single device called a microcomb.
Posted on 12 June 2018 | 9:42 am
The technology has developed a lot and same is the case with the online business. You may have seen that the number of online business has suddenly increased in the last few years. The reason behind this is only the developing technology. Have you ever done online shopping then you will see that they will ...
Posted on 10 June 2018 | 11:11 am
You may have seen that how the technology evolved a lot in the last few years. It has been a really very remarkable development. If you remember that sometime ago there were no machines, everything was done by hands. But now it has been really very easy and we have technology for every work. You ...
Posted on 10 June 2018 | 10:57 am
Most of you would have been to a super market of a store where there are a lot of big things to keep and store so that they can be safe. Along with this there are a lot of big things that needs proper storage so that they can be at proper place and shape ...
Posted on 10 June 2018 | 6:56 am
A novel technique developed by researchers at the ARC Centre of Excellence for Nanoscale BioPhotonics (CNBP) will help shine new light on biological questions by improving the quality and quantity of information that can be extracted in fluorescence microscopy.
Posted on 8 June 2018 | 12:21 pm
Flowers are a girl’s best friend just like diamonds. A flower given to any girl will bright up their face with the biggest smile you have ever seen, no matter what the situation or the occasion is. Now a day’s same day flower delivery is also available for those instant gift ideas one gets when ...
Posted on 8 June 2018 | 10:35 am
Yale scientists have created a new type of silicon laser that uses sounds waves to amplify light. A study about the discovery appears June 8 in the online edition of the journal Science.
Posted on 7 June 2018 | 6:00 pm
University of Adelaide researchers have created a laser that can "smell" different gases within a sample.
Posted on 7 June 2018 | 11:50 am
Researchers have demonstrated large-scale fabrication of a new type of transparent conductive electrode film based on nanopatterned silver. Smartphone touch screens and flat panel televisions use transparent electrodes to detect touch and to quickly switch the color of each pixel. Because silver is less brittle and more chemically resistant than materials currently used to make these electrodes, the new films could offer a high-performance and long-lasting option for use with flexible screens and electronics. The silver-based films could also enable flexible solar cells for installation on windows, roofs and even personal devices.
Posted on 6 June 2018 | 9:33 pm
In the Harry Potter series, a tap of the wand and a whispered incantation transforms a blank roll of parchment into detailed map of Hogwarts castle.
Posted on 6 June 2018 | 1:30 pm
Physicists developed a way to determine the electronic properties of thin gold films after they interact with light. Nature Communications published the new method, which adds to the understanding of the fundamental laws that govern the interaction of electrons and light.
Posted on 5 June 2018 | 4:50 pm
What began nearly a decade ago as a Berkeley Lab Laboratory-Directed Research and Development (LDRD) proposal is now a reality, and it is already changing the way scientists run experiments at the Advanced Light Source (ALS)—and, eventually, other light sources across the Department of Energy (DOE) complex—by enabling real-time streaming of ptychographic image data in a production environment.
Posted on 5 June 2018 | 1:59 pm
As you grow older your body starts to age and when it starts to age your muscle start getting stiffer by the day. If you have keen on keeping your muscles active and flexible and you want to ensure that your joints do not start paining but remain strong even after you have crossed a ...
Posted on 4 June 2018 | 8:44 pm
Similar to the eye of a hurricane, physicists of research institute AMOLF, the University of Amsterdam and the University of Texas at Austin, have captured light in the eye of an optical vortex. The research will be published on June 4th in the top journal Nature Photonics.
Posted on 4 June 2018 | 3:00 pm
Cheaper and more efficient photonic devices, such as lasers, optical fibers, and other light sources may be possible with confined light that is unaffected by imperfections in the material that confines it, according to new research. A team of physicists from Penn State, the University of Pittsburgh, and the University of Illinois have demonstrated in a proof-of-concept experiment that they can contain light in such a way that makes it highly insensitive to defects that might be present in a material. The results of the research appear online on June 4, 2018 in the journal Nature Photonics.
Posted on 4 June 2018 | 3:00 pm
A new way of enhancing the interactions between light and matter, developed by researchers at MIT and Israel's Technion, could someday lead to more efficient solar cells that collect a wider range of light wavelengths, and new kinds of lasers and light-emitting diodes (LEDs) that could have fully tunable color emissions.
Posted on 4 June 2018 | 3:00 pm
Choosing the right Cheap part time traders insurance for your car is not an easy task. The competition is high and the prices at various service centers vary. While most people make the mistake of opting in for the cheapest available service, it’s always good to get your research done before allowing someone to handle ...
Posted on 4 June 2018 | 9:29 am
It is never easy for people who have a busy schedule to find somebody that they might be interested in and they often end up spending most of their free days lonely and sad. If you plan on taking your life to the next step and you want to get involved with somebody that you ...
Posted on 4 June 2018 | 12:21 am
If you want to get relax and cleanse your body then all you need to do is to take a bath. Adding the essential oils and other ingredients to the water can consume lots of time. You should avoid it and choose the option of a bath bomb to use. With the help of the ...
Posted on 3 June 2018 | 7:27 pm
The Internet of Things (IoT) is a technology classification that includes home appliances and other items embedded with electronics, software, sensors, and actuators that connect and exchange data. One key IoT technology is optical fiber sensing.
Posted on 1 June 2018 | 1:20 pm
Deep learning, which uses multi-layered artificial neural networks, is a form of machine learning that has demonstrated significant advances in many fields, including natural language processing, image/video labeling and captioning. In image processing, deep learning demonstrates significant potential for automated identification and labeling of features of interest, such as abnormal regions in a medical image.
Posted on 31 May 2018 | 1:57 pm
Nearsightedness, or myopia, is an increasing problem around the world. There are now twice as many people in the US and Europe with this condition as there were 50 years ago. In East Asia, 70 to 90 percent of teenagers and young adults are nearsighted. By some estimates, about 2.5 billion of people across the globe may be affected by myopia by 2020.
Posted on 29 May 2018 | 5:08 pm
High-power lasers are now widely used in additive manufacturing and laser welding systems to precisely cut and weld metal, making all kinds of metal parts for medical devices, aerospace applications, automotive industries, and more. With the rise in industrial use of high-power laser processing, manufacturers increasingly seek high-accuracy, point-of-use laser power meters that can quickly report laser powers at any time in the manufacturing process—a vital aspect to controlling product quality. Traditional laser power meters, however, are often bulky in size and slow in response time. Power measurements can also only be taken separately, interrupting the manufacturing process.
Posted on 29 May 2018 | 4:59 pm
Advances in cell biology, materials science and imaging are combining to create tools that will allow researchers to track in real time and in super-fine resolution what happens inside a single cell.
Posted on 29 May 2018 | 9:22 am
EPFL has developed tiny fibers made of elastomer that can incorporate materials like electrodes and nanocomposite polymers. The fibers can detect even the slightest pressure and strain, and can withstand deformation of close to 500 percent before recovering their initial shape, all of which makes them perfect for applications in smart clothing and prostheses, and for creating artificial nerves for robots.
Posted on 25 May 2018 | 12:00 pm
In high-speed fiber optics, it is often the case that either the bandwidth of the transmission media cannot keep up with the data flow or the data simply cannot be processed fast enough. Then the picture judders or the resolution is temporarily scaled down, and television viewers have to make do with lower resolution images. Soon, such low bandwidth could be a thing of the past. Researchers at the Czech Academy of Sciences, together with their colleagues at Mainz University, have discovered a way to dramatically increase data processing rates by around 100 times up to terahertz speeds.
Posted on 25 May 2018 | 9:51 am
Carbon composites have many useful properties, with new potential uses being discovered all the time. Researchers have developed a thin sheet variety to exploit its electromagnetic properties for microwave shielding.
Posted on 24 May 2018 | 2:20 pm