Amazon is a global marketplace and sells millions of products worldwide every day. If you are a seller on Amazon, you will always be aiming to increase the sales of your products. Here are some tips and tricks to help you boost your sales on your Amazon marketplace. Focus on reviews With the advent of […]
Posted on 19 April 2019 | 3:45 pm
Researchers in Korea have designed an ultrathin display that can project dynamic, multi-colored, 3-D holographic images, according to a study published in Nature Communications.
Posted on 19 April 2019 | 12:28 pm
The inside of a fire might be the last place one would explore, but a new University of Central Florida method to do just that could lead to advances in fighting fires, creating cleaner engines and even space travel.
Posted on 18 April 2019 | 4:29 pm
Acoustic tweezers are based on focused acoustic vortices and hold promise to precisely manipulate microorganisms and cells from the millimeter scale down to the submicron scale, without contact, and with unprecedented selectivity and trapping force. The widespread use of the technique is hindered at present by limitations to the existing systems stemming from performance, miniaturization and the inability to assimilate in compartments. In a recent study, Michael Baudoin and colleagues at the Sorbonne University and the French National Center for Scientific Research (CNRS), improved the potential of focused acoustic vortices by developing the first flat, compact and paired single electrode focalized or focused 'acoustical tweezer'.
Posted on 18 April 2019 | 1:20 pm
A team of University of Otago/Dodd-Walls Centre scientists have created a novel device that could enable the next generation of faster, more energy efficient internet. Their breakthrough results have been published in the world's premiere scientific journal Nature this morning.
Posted on 18 April 2019 | 12:11 pm
Photoacoustic computed tomography (PACT) is a non-invasive hybrid imaging technique that excites biological tissues with light and detects the subsequently generated ultrasound to form images. PACT combines the advantages of both optical imaging—high optical contrast, and ultrasonic imaging—high resolution and deep penetration in biological tissues. PACT has been widely used for vascular network mapping, functional brain imaging, and tumor detection in deep tissues.
Posted on 18 April 2019 | 12:11 pm
Most of our gadgets today, like our smartphones and our laptops, stores all our important documents, files, and data. Of course, there will always be the risk of losing these if we do not store them properly. There are a lot of things that may happen to our devices, like it being damaged, corrupted or […]
Posted on 18 April 2019 | 3:19 am
One quick and effective way of stepping up your game in video games such as Fortnite battle royale is by using cheats. Cheats will give you an unfair disadvantage over other players (except if they are using cheats as well). Cheat gives advantages such as automatic aim, seeing through walls, higher jumps, and more. Fortnite […]
Posted on 17 April 2019 | 6:24 pm
The ability to manipulate light on a subwavelength-scale could lead to a revolution in photonic devices such as antennas, solar panels, and even cloaking devices. Nanotechnology advances have made this possible through the development of metasurfaces, materials covered in features smaller than the wavelength of the light.
Posted on 17 April 2019 | 1:50 pm
Biotechnologists, physicists, and medical researchers at Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU) have developed technology for microscopic imaging in living organisms. A miniaturised multi-photon microscope, which could be used in an endoscope in future, excites the body's own molecules to illuminate and enables cells and tissue structures to be imaged without the use of synthetic contrast agents. The findings have now been published in the renowned journal Advanced Science.
Posted on 17 April 2019 | 12:59 pm
The optical laser has grown to a $10 billion global technology market since it was invented in 1960, and has led to Nobel prizes for Art Ashkin for developing optical tweezing and Gerard Mourou and Donna Strickland for work with pulsed lasers. Now a Rochester Institute of Technology researcher has teamed up with experts at the University of Rochester to create a different kind of laser—a laser for sound, using the optical tweezer technique invented by Ashkin.
Posted on 16 April 2019 | 6:58 pm
Lensless microscopy with X-rays, or coherent diffractive imaging, is a promising approach. It allows researchers to analyse complex three-dimensional structures, which frequently exist in nature, from a dynamic perspective. Whilst two-dimensional images can already be generated quickly and in an efficient manner, creating 3-D images still presents a challenge. Generally, three-dimensional images of an object are computed from hundreds of individual images. This takes a significant amount of time, as well as large amounts of data and high radiation values.
Posted on 16 April 2019 | 2:08 pm
A great number of video games get to be distributed each year and there is not an ample time to play them all. To what degree you ought to experience which video games are worthy of commendations? In a video game review, this generalization supports every gamers and even readers to get the idea even […]
Posted on 15 April 2019 | 4:39 pm
Scientists at the U.S. Naval Research Laboratory (NRL) discovered a new method to passivate defects in next generation optical materials to improve optical quality and enable the miniaturization of light emitting diodes and other optical elements.
Posted on 15 April 2019 | 2:19 pm
Nowadays, many smartphone users are operating application for entertainment purpose. There is plenty of application exist online. It offers different options to movie lovers to watch their favorite movie on a smartphone. Most of the movie apps are not available in the app store. Lots of free movie apps are offering a perfect solution for […]
Posted on 15 April 2019 | 12:52 pm
When we think of hobbies we can come up with a lot, it’s our way of relieving stress. It can be tiresome if we only focus on work all the time because the first reason would be we have to keep up with paying bills, the second would be we have a family to feed […]
Posted on 14 April 2019 | 5:27 pm
Engineers at the University of California, Berkeley have built a new photonic switch that can control the direction of light passing through optical fibers faster and more efficiently than ever. This optical "traffic cop" could one day revolutionize how information travels through data centers and high-performance supercomputers that are used for artificial intelligence and other data-intensive applications.
Posted on 12 April 2019 | 1:37 pm
Researchers have measured an optical clock's ticking with record-breaking accuracy while also showing the clock can be operated with unprecedented consistency. These achievements represent a significant step toward demonstrating that the new generation of optical atomic clocks are accurate and robust enough to be used to redefine the official length of a second, which is currently based on microwave atomic clocks.
Posted on 11 April 2019 | 2:00 pm
Researchers from the National University of science and technology MISIS (NUST MISIS, Moscow, Russia) and the National Institute for Nuclear Physics (INFN, Naples, Italy) have developed a simple and cost-effective technology that allows increasing the speed of automated microscopes (AM) by 10 to 100 times. The microscopes' speed increase will help scientists in many fields: medicine, nuclear physics, astrophysics, neutrino physics, archaeology, geology, volcanology, etc. The development report was published in Scientific Reports.
Posted on 11 April 2019 | 12:34 pm
It's hard to see certain molecules react. The reaction is just that fast. Until now. A team of scientists devised a way to reveal time- and energy-resolved information on "dark" states of molecules—ones that are normally inaccessible. Their approach? They control the evolution of a highly electronically excited molecule by nonlinear optical methods in the extreme ultraviolet spectrum.
Posted on 10 April 2019 | 12:57 pm
Bear in mind that not all social media platform is developed equally. Some tactics and strategies are extremely better than others. Have you ever wondered why your social media account and posts are not getting much user engagement? Remember that you are not alone in the world of social media millions of people like you […]
Posted on 10 April 2019 | 11:11 am
Researchers in Sweden have developed cheaper, lighter and more efficient lidar technology that could pave the way for smaller autonomous craft such as drones and robots, and help enable better profitability in the vehicle industry.
Posted on 9 April 2019 | 2:35 pm
We generally look for something we like or need to purchase. This makes it beneficial for individuals to decide to shop at a mall instead of a unique store. It is difficult to go out to the mall and not find out anything we like. 명품 Shopping malls join huge stopping regions into their structure […]
Posted on 9 April 2019 | 1:07 pm
A team of engineers at Tufts University has developed a series of 3-D printed metamaterials with unique microwave or optical properties that go beyond what is possible using conventional optical or electronic materials. The fabrication methods developed by the researchers demonstrate the potential, both present and future, of 3-D printing to expand the range of geometric designs and material composites that lead to devices with novel optical properties. In one case, the researchers drew inspiration from the compound eye of a moth to create a hemispherical device that can absorb electromagnetic signals from any direction at selected wavelengths. The research was published today in the journal Microsystems & Nanoengineering, published by Springer Nature.
Posted on 8 April 2019 | 12:18 pm
With a huge number of PDF Converters nowadays, there might be some facts that you are not aware of just yet. PDF is now commonly used in sharing, emailing and downloading but there are still a lot to learn about this kind of format. There are a lot of options for PNG to PDF windows […]
Posted on 8 April 2019 | 9:56 am
Most of the households have surely a huge bundle of messed up manuals that are either stored up in a hotch potch manner or just thrown away in some corner of the room. However, when trying to find some of the most important sets, it becomes very difficult to find the right one due to […]
Posted on 7 April 2019 | 2:36 pm
Beneath many cities are complex networks of optical fibres that carry data, encoded in pulses of light, to offices and homes. Researchers from the National University of Singapore (NUS) and Singtel, Asia's leading communications technology group, have demonstrated a technique that will help pairs of light particles smoothly navigate these networks, a breakthrough that will enable stronger cyber security. The demonstration was performed over 10 km of Singtel's fibre network. This project, conducted in Singapore, is driven by the NUS-Singtel Cyber Security Research & Development Laboratory, a public-private partnership supported by the National Research Foundation, Prime Minister's Office, Singapore. It relies on the expertise from the Centre for Quantum Technologies (CQT) at NUS.
Posted on 5 April 2019 | 12:41 pm
Imagine pointing your smartphone at a salty snack you found at the back of your pantry and immediately knowing if its ingredients had turned rancid.
Posted on 5 April 2019 | 12:21 pm
X-ray free-electron lasers (XFELs) produce incredibly powerful beams of light that enable unprecedented studies of the ultrafast motions of atoms in matter. To interpret data taken with these extraordinary light sources, researchers need a solid understanding of how the X-ray pulses interact with matter and how those interactions affect measurements.
Posted on 4 April 2019 | 1:20 pm
University of Central Florida researchers have developed a way to control the speed of light. Not only can they speed up a pulse of light and slow it down, they can also make it travel backward.
Posted on 4 April 2019 | 1:07 pm
Engineers at Ruhr-Universität Bochum have developed a novel concept for rapid data transfer via optical fibre cables. In current systems, a laser transmits light signals through the cables and information is coded in the modulation of light intensity. The new system, a semiconductor spin laser, is based on a modulation of light polarisation instead. Published on 3 April 2019 in the journal Nature, the study demonstrates that spin lasers have the capacity of working at least five times as fast as the best traditional systems, while consuming only a fraction of energy. Unlike other spin-based semiconductor systems, the technology potentially works at room temperature and doesn't require any external magnetic fields. The Bochum team at the Chair of Photonics and Terahertz Technology implemented the system in collaboration with colleagues from Ulm University and the University at Buffalo.
Posted on 4 April 2019 | 12:18 pm
Using ultrashort laser pulses lasting a few picoseconds (trillionths of a second), Lawrence Livermore National Laboratory (LLNL) researchers have discovered an efficient mechanism for laser ablation (material removal) that could help pave the way to the use of lower-energy, less costly lasers in many industrial laser processing applications.
Posted on 4 April 2019 | 11:24 am
In analogy to the amplification of light in a laser, vibrations of a semiconductor crystal, so-called phonons, were enhanced by interaction with an electron current. Excitation of a metal-semiconductor nanostructure by intense terahertz (THz) pulses results in a 10-fold amplification of longitudinal optical (LO) phonons at a frequency of 9 THz. Coupling such lattice motions to propagating sound waves holds potential for ultrasound imaging with a sub-nanometer spatial resolution.
Posted on 4 April 2019 | 10:09 am
Scientists have recently developed a light controlled nano-switch to lay groundwork for atomic device development in nanotechnology. They engineered the switches at the nanoscale in a first step toward fully integrated electronic device miniaturization. The multidisciplinary research was conducted by Weiqiang Zhang and co-workers, and an international team of collaborators. Results of the study are now published in Light: Science & Applications.
Posted on 3 April 2019 | 1:30 pm
Researchers recently demonstrated the realization of an integrated microlaser based on a novel design that emits light in chiral modes, thus producing corkscrews of light. An object is said to be chiral if it can be distinguished from its mirror image. Due to their helical shape, corkscrews are particularly good examples.
Posted on 3 April 2019 | 12:06 pm
Particle beam therapy is increasingly being used to treat many types of cancer. It consists in subjecting tumours to beams of high-energy charged particles such as protons. Although more targeted than conventional radiotherapy using X-rays, this approach still damages surrounding normal tissue. To design the optimum treatment plan for each patient, it is essential to know the energy of the beam and its effect on tumour and normal tissue alike.
Posted on 2 April 2019 | 4:35 pm
Radar technologies were originally designed to identify and track airborne military targets. Today they're more often used to detect motor vehicles, weather formations and geological terrain.
Posted on 2 April 2019 | 4:34 pm
A chameleon can flexibly change its colour to match its surroundings. And a similar phenomenon can now be seen in a new class of smart materials called metamaterials. The trouble is that these metamaterials lack the ability to respond to nearby objects due to their physical characteristics. To remedy this shortcoming, Chinese physicists have developed so-called 'metashells': hollow shells made of metamaterials and capable of carrying materials in their core. The advantage is that their physical characteristics, such as permittivity—the extent to which a material can store charge within an electrical field—change with the electromagnetic properties of the material they contain. In a recent theoretical study published in The European Physical Journal B, Liujun Xu and Jiping Huang from Fudan University in Shanghai, China, describe how they have developed an entire class of these chameleon-like metashells.
Posted on 2 April 2019 | 4:19 pm
An international team of physicists from the Mandelstam Institute for Theoretical Physics at Wits University and the Institut Néel in Grenoble, France, has created a tiny superconducting circuit that mimics the quantum mechanical process in which an atom absorbs or emits light.
Posted on 2 April 2019 | 1:42 pm
In the not-too-distant future, people may have a simple device that monitors and reports health indicators, identifies even trace amounts of undesirable biomarkers in the blood or saliva and serves as an early warning system for diseases. This is one of the promises of personalized medicine.
Posted on 2 April 2019 | 11:40 am