Sentences with phrase «of imaging applications»
IX83 is the most advanced member of the IX3 series of inverted imaging systems which provides the ability to perform a multitude of imaging applications, from long - term time - lapse imaging and other demanding techniques to routine testing and documentation
https://www.olympus-lifescience.com/
Our solutions fit applications from routine microscopy through to the most demanding of imaging applications.
According to the authors, their results provide «an adaptable, quantitative imaging framework to assess two MRI contrast agents simultaneously for a wide variety of imaging applications.»
He has 15 years» expertise in a wide range of imaging applications for CCD, EMCCD, and CMOS cameras as well as diverse microscopy and image - data visualization systems.
Not exact matches
Geographic information system and mapping capabilities that go hand - in - hand with UAVs have many applications across multiple industries, from bridge, road and pipeline mapping to tracking the path of wildfires and identifying hotspots to assist firefighters, crop monitoring and insect detection for farmers, and real - time imaging for search and rescue operations.
At Rafael they think outside the box concerning civilian applications too, and it was there that the revolutionary camera - in - a-pill of Given Imaging Ltd. (Nasdaq: GIVN; TASE: GIVN) was born.
The use of imaging by cancer patients, as pioneered by the Simontons (see chapter 8), is one productive application.
Thermal imaging cameras can be used to check the correct application of hot - melt glue for cardboard carton assembly.
The team who made the discovery say masers could be used in a range of applications such as medical imaging and airport security scanning.
After presenting the central concept involved, that of single - electron stroboscopic imaging, we discuss prototypical applications, which include the visualization of complex structures when unfolding on different length and time scales.
Echo - planar imaging (EPI) uses only one nuclear spin excitation per image and lends itself to a variety of critical medical and scientific applications.
Extending far beyond on either side of the visible wavelengths are the longer and shorter wavelengths of light that are exploited for myriad applications in communication, sensing, navigation, and imaging.
The amalgamation of the two technologies will lay the foundation for a new class of cameras that expand the range of applications that benefit from imaging.»
Medical imaging is a huge application domain for scientific visualization with an emphasis on enhancing imaging results graphically, e.g. using pseudo-coloring or overlaying of plots.
These hyperbolic metamaterials are the basis for many potential applications such as «hyperlenses,» used for imaging of nanoscale objects not observable using conventional optics.
The researchers say this advance in nanoscience opens vast opportunities for a wide range of applications that includes catalysis (the acceleration of a chemical reaction by a catalyst), energy storage (batteries or supercapacitors), and bio / plasmonic imaging, among others.
Above all, Mankoff says testing of new imaging methods should focus on applications where they clearly represent an advance for patients over other imaging or biopsy - based techniques.
«Studying the formation and evolution of jets in metals and, more generally, how materials at extreme conditions respond using X-ray phase contrast imaging is relevant to such things as meteorite impacts, the performance of explosives and detonators, understanding crack nucleation and propagation in materials, and the development of new materials with tailored properties whose applications include automotive and airplane components, lighter and more impact - resistant armor, and debris shields in space, to name a few.»
The discovery, which relies on the separation of right - and left - «handed» particles, points to a range of potential applications in energy, quantum computing, and medical imaging, and possibly even a new mechanism for inducing superconductivity — the ability of some materials to carry current with no energy loss.
He has been involved in the creation of application notes and technical white papers on established and emerging imaging applications, trends, and technologies.
«Application of deep learning to medical imaging is a relatively new field,» Dr. Lakhani said.
Carbon nanodots are tiny particles of carbon that are useful in imaging, sensing, drug delivery and many other applications.
Dr. Guanying Li and Professor Zhang worked with colleagues from OIST's Imaging and Instrument Analysis Section, as well as scientists in the SM Application Group of JEOL in Tokyo.
This multiple wave scattering hinders most applications of optical imaging for deep biological samples.
Campbell, who has developed a large number of fluorescent proteins for imaging applications, including some that are commercially distributed and others that are available through the non-profit Addgene, has a patent pending on the technology.
«High - speed AFM is ideally suited for some medical applications as it can process materials quickly and provide hundreds of times more resolution than comparable imaging methods.»
They also have applications in medical diagnostics, where they can help to speed up magnetic resonance imaging, for example; and in entertainment, to encode high - resolution films into files of manageable size.
«The future is bright for the application of imaging in infectious diseases,» said Bocan.
The GRL paper notes other potential applications of using the dark fiber, including urban seismic hazard analysis, global seismic imaging, offshore submarine volcano detection, nuclear explosion monitoring, and microearthquake characterization.
Structured light, such as the above corkscrewed beam, can tell scientists a lot about the physics of light and have wide range of applications from super resolution imaging to molecular manipulation and communications.
These so - called structured beams not only can tell scientists a lot about the physics of light, they have a wide range of applications from super-resolution imaging to molecular manipulation and communications.
«Analysis show that flexible imaging detector arrays is an area where THz applications of graphene has a very high impact potential.
The new results, published in AIP Advances, from AIP Publishing, could also lead to skyrmion - based devices such as microwave nano - oscillators, used in a range of applications including wireless communication, imaging systems, radar and GPS.
«This characteristic makes gold nanorods attractive for use in catalysis, security materials and a range of biomedical applications, such as diagnostics, imaging, and cancer therapy,» says Joe Tracy, a materials science and engineering researcher at NC State who is senior author of a recent paper on the improved technique.
The method is uniquely suited for studying viruses and bacteria to facilitate development of medications, or for imaging the structures of novel nanomaterials for applications that range from nanoelectronics to energy technology.
This technology has revolutionised optics in recent years, with many applications in imaging and holography, adaptive optics and wavefront shaping of light through opaque media.
It took the best part of 50 years to work out how to make a superconducting magnet and half as much time again to develop the first killer application, magnetic resonance imaging.
«These novel luminescent nanoparticles, called upconversion nanoparticles, have become promising candidates for a whole variety of ultra-high tech applications such as biological sensing, biomedical imaging and 3D volumetric displays,» says lead author Dr Tim Zhao, from the University of Adelaide's School of Physical Sciences and Institute for Photonics and Advanced Sensing (IPAS).
Recent advances in both imaging technology and high throughput automation have led to the development of high - content screening (HCS) and integrated liquid handling systems that have broad application in academia and industry.
«Our findings for this study provide important starting points for using small molecule imaging techniques to explore MAO - B further at the organism level, and in fact, opens up future prospects for non-invasive imaging - based diagnostic applications,» said Dr Li Lin, the first author of the paper and a post-doctoral fellow in Prof Yao's lab.
This strategy led to the discovery of NIR luminescence and also paves the way for other types of nanoparticle alloys that are useful not only in imaging, but in applications like catalysis for the industrial - scale conversion of fossil fuels into fine chemicals.
While on one hand, there is significant potential in the application of nanoparticles in enhancing heat transfer for tumor ablation and targeted drug delivery, there is also much promise in improving imaging and diagnostic protocols using them.
«This is great, but applications will come down to the details,» says Jeremy Lerner, president of LightForm, a US imaging instrumentation company.
Combining these two elements to make a compact frequency comb generating long - wavelength light in the terahertz range can produce a useful source of radiation for a variety of applications in imaging, diagnostics, remote sensing, and identifying molecular «fingerprints» of extremely complex molecules.
The technique is currently being tested in a number of clinical applications, including imaging breast tumors, detecting skin cancer, and tracking blood oxygenation in tissues.
This process could lead to a plethora of new devices with a wide variety of applications in optics and biomedical imaging, Sun said.
The easy - to - build lens could lead to improved photolithography, nanoscale manipulation and manufacturing, and even high - resolution three - dimensional imaging, as well as a number of as - yet - unimagined applications in a diverse range of fields.
Imaging at the nanoscale is important to a plethora of modern applications in materials science, physics, biology, medicine and other fields.
«The intention is to build up a greater understanding of the interaction between imaging tip and surface at the same time as practical applications are developed,» says Mark Welland of the Department of Engineering at the University of Cambridge.
Moreover, because of limitations inherent in their design, metamaterials of this type designed for infrared and visible wavelengths have, so far, been shown to impart a negative index of refraction to light that is traveling only in a certain direction, making them hard to use for imaging and other applications that rely on refracted light.