KEYENCE INDIA PVT. LTD.’s Post

Big things are happening at OIST's research group under Keshav Dani and Michael Man! They have expanded their scientific toolkit with a new SPECS momentum microscope to facilitate time-resolved experiments, enhancing their already impressive capabilities in electronic structure analysis. Check out their recent breakthroughs and learn more on the SPECS website: bit.ly/3KYmPkU #SurfaceAnalysis #SurfaceScience #NanoScience #SpectroscopicAnalysis #MicroscopicAnalysis #ChemicalAnalysis #MomentumMicroscopy #ScanningProbeMicroscopy #QuantumTransport

In this paper, we have secured new optical solitons for the concatenation model with power-law nonlinearity. The traveling wave hypothesis serves as the starting point. To retrieve optical soliton solutions, we have implemented two powerful techniques into the model: the Sardar Sub-Equation Method (SSEM) and the Tanh-Coth method. For power-law nonlinearity, we derived through the balancing principle that solitons would exist for different values of the power-law parameter. Therefore, we have secured a large variety of new soliton solutions for the model. Please visit: https://lnkd.in/dw374kfJ #ESCI #Scopus #mathematics #Research

This paper recovers the spectrum of optical solitons for the dispersive concatenation model with the application of the Sardar sub-equation approach. The single soliton solutions that emerge from this scheme are bright, dark, and of singular type. The parameter constraints for the existence of such solitons are also included. Please visit: https://lnkd.in/gugKadHF #ESCI #mathematics #Scopus #research

I am excited to share that our recent work "Transonic dislocation propagation in diamond" has been published in Science. This is the first experiment to show that the dislocation travels faster than the speed of sound in diamond with x-ray radiography which was previously only been predicted by theory. Awesome work by Kento Katagiri and all the authors! Please check it out: https://lnkd.in/gs7SPKBr #science #dislocation #materials #xray

Microscopic mysteries: #CryoEM vs. #TransmissionElectronMicroscopy. Curious minds, this one's for you! Our friends at JEOL USA recently published an informative blog that dives deep into the intriguing realm of #ElectronMicroscopy. It breaks down the differences between Cryo-EM and #TEM, revealing the secrets behind these powerful tools. It's a battle of the microscopes, and you won't want to miss it: https://ow.ly/UBrt50Q2xuK

💧 The Magic of Surface Tension: Exploring Liquid Mysteries! 🌊 Surface tension, the captivating force that gives rise to water's ability to bead, form droplets, and even support small objects, is a fascinating phenomenon. It's the invisible hand that shapes the behavior of liquids. 🔬 From understanding capillary action to how insects seemingly walk on water, surface tension plays a pivotal role in various scientific and everyday scenarios. It's the force that keeps our drinks in their glasses and shapes the world of microfluidics. Join us in this exploration of surface tension and the remarkable ways it influences our world, from science labs to the marvels of nature. Let's dive into the liquid mysteries together! 💦🔍 video source: https://lnkd.in/gPSRvknr #SurfaceTension #LiquidScience #CapillaryAction #Microfluidics #InnovationInProgress 🌐🔬

This tutorial from OPG_JOSA_A presents key concepts required to analyze nonstationary fields, with an emphasis on pulsed beams: https://ow.ly/a1JQ50R54vM Starting with the essentials of nonstationary optics, this tutorial from University of Eastern Finland authors includes the definitions of nonstationary coherence in time and frequency, as well as a brief discussion about the stationary limit. Written by: Matias Koivurova, Jyrki Laatikainen, and Ari T. Friberg #UltrafastOptics #LaserScience

Addressing the concatenation model, this paper explores the incorporation of power-law self-phase modulation and spatio-temporal dispersion, in addition to the chromatic dispersion. The inclusion of the white noise effect, along with deterministic Hamiltonian perturbation terms of arbitrary intensity, is also examined. Two integration approaches are applied to recover the soliton solutions, leading to the observation that the white noise effect remains confined to the phase component of these solutions. Please visit: https://lnkd.in/gqvNB9ac #research #mathematics #ESCI #Scopus #solitons

Human blood platelets with the platelet aggregate in blue, the fibrin network in yellow, and the attached Neutrophil in orange imaged by Harry Heijnen and René Scriwanek, UMC Utrecht using a Cambridge M-600 scanning electron microscope (#SEM) at Utrecht University Third prize in the 2021 NEMI Project photo competition & image for March in the 2022 NEMI Project calendar #microscopy #electronmicroscopy #scanningelectronmicroscopy #blood #bloodplatelet #platelets