Sentences with phrase «of photonic»

This would provide experimental evidence for the postulated level of photonic recycling of CO2, which is generally considered to be incapable of either measurement or of being determined by any means other than modeling.

Pekka, the lapse rate is a very practical demonstration of the photonic recycling mechanism of molecules with a strong absorbance in the IR.

Angele says that one drawback of the photonic - crystal approach could be that it depends on the flow of electrolyte in response to electricity.

April 20, 2018 - In a recent study published in Science, researchers at ICFO - The Institute of Photonic Sciences in Barcelona, Spain, along with other members of the Graphene Flagship, reached the ultimate level of light confinement.

An international team of scientists has discovered a new type of silicon that could be used to control light beams in a new kind of photonic chip — a chipset where information is carried by light beams rather than electrical currents.

Analog RF Signal Applications: Using the GHz precision signal processing of photonic integrated circuits, radiofrequency (RF) signals can be manipulated with high fidelity to add or drop multiple channels of radio, spread across an ultra-broadband frequency range.

Alain Destexhe, Research Director of Unité de Neurosciences CNRS, Gif - sur - Yvette, France Bruno Weber, Professor of Multimodal Experimental Imaging, Universitaet Zuerich, Switzerland Carmen Gruber Traub, Fraunhofer, Germany Costas Kiparissides, Certh, Greece Cyril Poupon, Head of the Nuclear Magnetic Resonance Imaging and Spectroscopy unit of NeuroSpin, University Paris Saclay, Gif - sur - Yvette, France David Boas, Professor of Radiology at Massachusetts General Hospital, Harvard Medical School, University of Pennsylvania Hanchuan Peng, Associate Investigator at Allen Brain Institute, Seattle, US Huib Manswelder, Head of Department of Integrative Neurophysiology Center for Neurogenomics and Cognitive Research, VU University, Amsterdam Jan G. Bjaalie, Head of Neuroinformatics division, Institute of Basic Medical Sciences, University of Oslo, Norway Jean - François Mangin, Research Director Neuroimaging at CEA, Gif - sur - Yvette, France Jordi Mones, Institut de la Macula y la Retina, Barcelona, Spain Jurgen Popp, Scientific Director of the Leibniz Institute of Photonic Technology, Jena, Germany Katharina Zimmermann, Hochshule, Germany Katrin Amunts, Director of the Institute Structural and functional organisation of the brain, Forschungszentrum Juelich, Germany Leslie M. Loew, Professor at University of Connecticut Health Center, Connecticut, US Marc - Oliver Gewaltig, Section Manager of Neurorobotics, Simulation Neuroscience Division - Ecole Polytechnique fédérale de Lausanne (EPFL), Geneve, Switzerland Markus Axer, Head of Fiber architecture group, Institute of Neuroscience and Medicine (INM - 1) at Forschungszentrum Juelich, Germany Mickey Scheinowitz, Head of Regenerative Therapy Department of Biomedical Engineering and Neufeld Cardiac Research Institute, Tel - Aviv University, Israel Pablo Loza, Institute of Photonic Sciences, Castelldefels, Spain Patrick Hof, Mount Sinai Hospital, New York, US Paul Tiesinga, Professor at Faculty of Science, Radboud University, Nijmegen, Netherlands Silvestro Micera, Director of the Translational Neural Engineering (TNE) Laboratory, and Associate Professor at the EPFL School of Engineering and the Centre for Neuroprosthetics Timo Dicksheid, Group Leader of Big Data Analytics, Institute Structural and functional organisation of the brain, Forschungszentrum Juelich, Germany Trygve Leergaard, Professor of Neural Systems, Institute of Basic Medical Sciences, University of Oslo, Norway Viktor Jirsa, Director of the Institute de Neurosciences des Systèmes and Director of Research at the CNRS, Marseille, France

Researchers at the Institute of Photonic Sciences (ICFO) have developed a lab - on - a-chip device that can detect protein cancer markers in a drop of blood, working as a very early cancer - detection system.

This area of research focuses on the implementation of photonic systems like high speed photonic networks.

But just how important became more obvious to me in an interview with Frank Koppens, the leader of the quantum nano - optoelectronic group at Institute of Photonic Sciences (ICFO) just outside of Barcelona, last year.

Looking inside, the hybrid microscope consists of a photonic module that is incorporated into a mode - synthesizing atomic force microscope.

This gives rise to a blue shift of the silver plasmon band, with concomitant blue shift of the photonic band gap.

Design of Photonic and Plasmonic Materials for Photocatalytic CO2 Reduction A. Gaulding, I. Sharp, and F. M. Toma

By the end of 2017, Christian had opened a new lab in the Institute of Applied Optics, Friedrich - University University Jena as well as holding a position as Professor of Super-resolution Microscopy at the Leibniz Institute of Photonic Technology Jena.

The tunability of the photonic band gap of photonic crystals has attracted a significant attention in the last decades, with applications in sensing, lighting, and displays.

Design of Photonic and Plasmonic Materials for Photocatalytic CO2 Reduction E. A. Gaulding, I. D. Sharp, and F. M. Toma

Design of Photonic and Plasmonic Materials for Photocatalytic CO2 Reduction.

«Large groups of photons on demand: An equivalent of photonic «integrated circuit».»

Consequently, if we now bring a suitably prepared quantum emitter into the light field of a photonic structure, the strength of the interaction between the emitter and the light will depend on the light's propagation direction.

Illustration of the photonic router the Weizmann Institute scientists created.

The ability to produce high - performing photonic devices using the CMOS process means chip designers will not have to be specialists to design photonic devices, Wade explained, which will hopefully accelerate the commercialization of photonic technology.

The field of photonic computing aims to achieve that goal by using light as the medium.

Its methods could be used to shrink the size of photonic crystals and to develop tunable metamaterials.

«We hope that, one day, multimodal endoscopic imaging techniques could help doctors make quick decisions during surgery, without the need for taking biopsies, using staining treatments or performing complex histopathological procedures,» said Jürgen Popp, from Leibniz Institute of Photonic Technology in Jena, Germany and the paper's lead author.

«Basically, we need to recognize that some of these structures can exhibit properties of photonic crystals, and we need to take their physics into account,» Semouchkina says.

LANP researchers and others have spent years developing techniques to bolster the field - intensity enhancement of photonic structures for single - molecule sensing and other applications.

Antonio Acín, a physicist at the Institute of Photonic Sciences in Spain and an author of a paper describing the approach in the April 15 issue of Nature, says that true randomness is elusive.

Materials provided by ICFO - The Institute of Photonic Sciences.

In a recent study carried out at ICFO, the Institute of Photonic Sciences, the research group of Advanced fluorescence imaging and biophysics, led by Nest Fellow Dr. Melike Lakadamyali was able to quantify the photoactivation efficiency of all the known «ir - reversibly photoswitching fluorescent proteins» and establish a proper detailed reference framework for determining protein stoichiometry.

ICFO - The Institute of Photonic Sciences.

The team of research scientists from the Leibniz Institute of Photonic Technology (Leibniz IPHT) in Jena, the Fraunhofer Institute of Applied Optics and Precision Mechanics, the Friedrich Schiller University of Jena, and the Helmholtz Institute Jena published the results of their work in the journal Nature Communications.

Materials provided by Leibniz - Institute of Photonic Technology.

Thidé and his colleagues from the University of Padua in Italy, Macquarie University in Australia and the Institute of Photonic Sciences in Spain reported their finding in a paper published online February 13 in Nature Physics.

Philipp Hauke and Peter Zoller from the Department of Theoretical Physics at the University of Innsbruck and the Institute for Quantum Optics and Quantum Information (IQOQI) at the Austrian Academy of Sciences in collaboration with Markus Heyl from the Technical University of Munich, and Luca Tagliacozzo from ICFO — The Institute of Photonic Sciences have found a new way to detect certain properties of many - particle entanglement independent of the size of the system and by using standard measurement tools.

In this case, Lu was able to calculate precise measurements for the construction of a photonic crystal predicted to produce the manifestation of Weyl points — with dimensions and precise angles between arrays of holes drilled through the material, a configuration known as a gyroid structure.

A set - up capable of 100 billion frames a second has captured the first footage of a photonic Mach cone — a sonic boom with light.

Practical applications of this technology will include all - optical reconfigurable routers, ultrafast optical modulators and switches for optical networks and microwave photonic circuits as well as wafer - scale optical testing of photonic chips.

Such insights may eventually lead to new kinds of photonic and electronic materials and devices, driving the technologies of tomorrow.

It will open a completely new set of applications, such as optical communications and sensing at a scale below one nanometer,» said ICREA Professor Frank Koppens at ICFO — The Institute of Photonic Sciences in Barcelona, Spain, who led the research.

After studying at the Institute of Photonic Sciences, ICFO, Kokabee enrolled in a doctoral program at the University of Texas at Austin in 2010 to study optics and photonics.

Right: Scanning electron micrograph of a photonic crystal membrane, displaced according to one of the vibrational modes, with red and blue representing positive and negative displacement, respectively.

Left - bottom: Variation of quantum dot emission line frequencies as a function of time due to vibrations of the photonic crystal membrane.

In a recent study published in Science, researchers at ICFO — The Institute of Photonic Sciences in Barcelona, Spain, along with other members of the Graphene Flagship, reached the ultimate level of light confinement.

«Because ultimately one will want to make such optical processors with maybe tens or hundreds of photonic qubits, it becomes unwieldy to do this using traditional optical components,» says Dirk Englund, the Jamieson Career Development Assistant Professor in Electrical Engineering and Computer Science at MIT and corresponding author on the new paper.

The Institute of Photonic Sciences, Barcelona, 08860 Castelldefels, Spain.

«Patterning of photonic crystals is critical for the realisation of photonic crystal displays and for designing the special functions of photonic crystal optical devices.»

Inkjet printing of photonic crystals onto a surface is cheaper, but previous efforts have struggled to integrate responsive photonic crystal inks into such a system.

The ability of photonic crystals to control the flow of light makes them a suitable material for diverse applications including optical communications, biosensors and solar cells.

Scientists of the Leibniz - Institute of Photonic Technologies (Leibniz - IPHT), Center for Sepsis Control and Care at the University Hospital Jena and Friedrich Schiller University work at a faster and cheaper alternative for hitherto time consuming pathogen diagnostics.

«This technology allows for high resolution, high precision, fast speed, large scale preparation of photonic crystal patterns,» says Bai.