Cisco Systems Fault Managed Power Portfolio Overview
Cisco Systems offers an industry-leading Fault Managed Power (FMP) patent portfolio comprising 24 active assets across seven INPADOC families. The portfolio includes patents supporting fault-managed power systems, PoE deployments, DC power distribution, DC-DC conversion, and HVDC connectors. The FMP
4 views • 4 slides
Innovations in Pixel Detector Technology for Photon Science
Technologies and advancements in pixel detector development for photon science applications are showcased in this content. Topics discussed include balancing gain and dynamic range in hybrid pixel detectors, performance assessments of integrating pixel detectors, and strategies for photon detection
4 views • 21 slides
Advanced Techniques in Materials Science: Transmission Electron Microscopy
Explore the advanced techniques used in materials science, focusing on Transmission Electron Microscopy (TEM). Learn about the challenges with optical microscopes, the principles of TEM imaging, and the application of scattering theory in electron microscopy. Discover how TEM offers higher resolutio
3 views • 19 slides
Nuclear Structure Investigations with Resonant Photon Scattering at FRIB-TA Workshop
Explore nuclear structure using resonant photon scattering at the FRIB-TA Workshop. The High Intensity Gamma-ray Source facility enables research on photonuclear reactions, spin and parity determinations, and selective investigation of nuclear states. Learn about the technique's potential impact on
2 views • 33 slides
NCP4390/NCV4390 Secondary Side Synchronous LLC Controller
The NCP4390/NCV4390 is an advanced secondary side controller for LLC resonant converters with Synchronous Rectification (SR). It features current mode control based on charge control, dual-edge adaptive dead time control, and is an upgrade of FAN7688. The controller offers benefits like excellent tr
1 views • 6 slides
Advanced Operation of TPS548D22 with OVP Functionality
This detailed content presents the operational intricacies of TPS548D22 with OVP function, including setup specifications, fault-triggered actions, shutdown mechanisms, threshold behaviors, and minimum on-time considerations. The process involves orchestrated switching between FETs to regulate VOUT
0 views • 7 slides
Mission Design Considerations for a SmallSat Swarm in High Earth Orbit
HelioSwarm presents a mission concept involving a propulsive ESPA hub deploying smallsat nodes in a lunar resonant orbit. The swarm design requirements focus on complex hub-relative trajectories for each node, emphasizing high-rate data crosslinks and measurement-optimized tetrahedra formation. Smal
6 views • 7 slides
Advanced Neutron Scattering Research Project at ORNL
This project proposal outlines a research opportunity at Oak Ridge National Laboratory (ORNL) focusing on forefront scientific problems and the strategic value of neutron scattering techniques. Graduate students will benefit from valuable experience and collaboration opportunities during their time
0 views • 5 slides
Transistor Tuned Amplifiers: Operation and Analysis
Transistor tuned amplifiers consist of a parallel tuned circuit as the collector load, amplifying a specific frequency while rejecting others. The resonant frequency of the tuned circuit is crucial for amplification. A high Q circuit offers maximum voltage gain at the resonant frequency but decrease
0 views • 30 slides
Advanced Fission Experiments at University of Michigan
The University of Michigan, under the guidance of Dr. Sara A. Pozzi, conducts cutting-edge fission experiments leveraging organic scintillation detectors. These detectors offer advantages such as nanosecond-scale response times, energy proportionality, and scalability. The experiments focus on impro
0 views • 4 slides
Advanced Photon-Beam Experiments in Nuclear Physics Research
Explore cutting-edge experiments in nuclear physics using intense photon beams, nondestructive isotope detection, laser Compton scattering rays, and photon beams for fundamental collective motion studies. Learn about nuclear resonance fluorescence, dipole excitation strength distribution, and detail
0 views • 12 slides
Status Update on GRANIT Spectrometer at Les Houches (August 19, 2024)
GRANIT aims to increase observation time of neutrons in gravitational states and enhance precision of measurements. Details about the clean room, UCNs hunting, and progress made in 2010 are outlined, emphasizing the need for system reliability and improvement. Significant steps have been taken towar
0 views • 34 slides
Exploring De Broglie Waves, Bohr's Quantization, and Electron Scattering in Physics
Discover the fascinating concepts of De Broglie waves, Bohr's quantization conditions, and electron scattering in physics. Delve into the wave-particle duality, electron double-slit experiments, and the groundbreaking observations by Davisson and Germer. Uncover the implications of mass particles ha
0 views • 23 slides
Introduction to Dynamic Light Scattering - Day 1 Recap
Introduction to Dynamic Light Scattering covered concepts, lab measurements, and analysis of diffusive time scales. Topics included measuring DI water, PS latex spheres, and a mystery sample. Results showed highly mono-dispersed PS latex standards and discussed challenges in analyzing mixtures of di
0 views • 4 slides
Exploring Neutrons and Argon in the DUNE and ARTIE Experiments
Detailed overview of experiments like DUNE and ARTIE focusing on the use of liquid argon time projection chambers for studying neutron interactions. Discussions include Pulsed Neutron Source calibration, scattering length measurements, ARTIE setup for resonant transport interactions, and current sim
2 views • 10 slides
Gravity Waves as a Mechanism of Coupling Oceanic and Atmospheric Acoustic Waveguides to Seismic Sources
Direct excitation of acoustic normal modes in horizontally stratified oceanic waveguides is negligible for shallow earthquakes due to velocity disparities. This study evaluates the contribution of scattering by hydrodynamic waves in generating abyssal T-waves. The research explores the role of scatt
1 views • 6 slides
Electromagnetic Scattering by Wedge and Line Source Notes
In these notes from ECE 6341, Spring 2016, Prof. David R. Jackson covers the topic of scattering by a wedge and line source. The discussion includes boundary conditions, Bessel functions, integration techniques, and more, providing a thorough exploration of the electromagnetic phenomena involved.
0 views • 27 slides
Unveiling Dark Matter Mysteries Through Dark Photons
Delve into the exploration of dark matter through the lens of dark photons in the galactic center and detectors. Uncover the enigmatic nature of dark matter, its interactions, existing constraints, and our model with fermionic dark matter and a dark photon mediator. Discover strategies to evade cons
0 views • 18 slides
Beam Energy Calibration with Compton Scattering Method
The CEPC beam energy calibration with Compton scattering method led by Yongsheng Huang and the CEPC energy calibration working group involves collaborations with various institutions and organizations. The project includes detailed physics requirements, system designs, and implementation plans for b
0 views • 14 slides
Understanding PN Junction in Semiconductors
Mobility in semiconductors is affected by scattering events as temperature increases, with impurity scattering dominating at low temperatures and lattice scattering at high temperatures. A p-n junction is the interface between p-type and n-type semiconductor materials, with excess holes on the p-sid
0 views • 15 slides
Understanding Multiple Scattering Programs in Fortran for Neutron Diffraction and Inelastic Analysis
Multiple scattering programs like MSCAT and DISCUS, written in Fortran since the 70s, are essential tools for neutron diffraction and inelastic analysis. These programs allow for the calculation of neutron cross-sections, scattering angles, and sample geometries. The results obtained include elastic
0 views • 8 slides
Research Project on Microwave Photon Detection with Transition Edge Sensors
Investigation and fabrication of TES materials for single photon detection in the microwave range, optimizing material selection, deposition processes, and antenna-coupled TES design. Tasks include materials characterization, antenna simulations, and TES microwave characterization. The project aims
0 views • 9 slides
Comparison of Photon, Proton, and Carbon Ion Therapy for Liver Cancer
This document elaborates on the comparison of photon, proton, and carbon ion therapy for liver cancer. It includes abstract, phantom CT scan analysis, organ delineation, photon vs. proton therapy comparisons, and proton vs. carbon ion therapy comparisons with corresponding images. Detailed discussio
0 views • 11 slides
Understanding Semiconductor Conductivity and Scattering Mechanisms
In the study of semiconductor conductivity, the concept of degenerate and non-degenerate semiconductors is discussed, showcasing the impact of doping levels. The conductivity equation is explored in terms of electron and hole mobilities and densities. The role of scattering mechanisms, such as latti
0 views • 18 slides
Symposium on Positron Emission Tomography and Boron Neutron Capture Therapy Time-Over-Threshold Calibration in J-PET
The 3rd Symposium on Positron Emission Tomography and 1st Symposium on Boron Neutron Capture Therapy focused on Time-Over-Threshold calibration within the framework of J-PET. The event outlined experimental details, event selection, results, and key features of the Jagiellonian Positron Emission Tom
0 views • 35 slides
Core Level Spectroscopies in Charge Transfer Multiplet Program
Core level spectroscopies in the Charge Transfer Multiplet Program are essential for analyzing d and f-shells in various spectroscopic techniques involving excitation, decay, resonances, and scattering. These spectroscopies include X-ray spectroscopies, electron spectroscopies, and resonant spectros
0 views • 69 slides
Exploring Quantum Information through Polarization of Photons
Quantum information and photon polarization are explored in this detailed presentation featuring the ultimate quantum 2-state system. The content delves into the behavior of single photons at a quantum level, showcasing the intriguing properties and implications of quantum superposition in polarizat
1 views • 14 slides
Mixed Elastic Scattering Format Proposal
This proposal focuses on introducing a Mixed Elastic Scattering format to address the need for a more rigorous treatment of thermal elastic scattering effects in selected nuclides. The format extension, compatible with ENDF-6, supports advanced moderator development without impacting existing TSL ev
0 views • 6 slides
Electron Beam Analysis and Optimization for RF Linac in Inverse Compton Scattering
This research activity report discusses the analysis and optimization of a 6D phase space electron beam for RF Linac-based Inverse Compton Scattering radiation sources. It covers the SPARC_LAB Thomson Source and ELI-NP GBS, including experiments, simulations, and studies on beam parameters and struc
0 views • 26 slides
Investigation of Spin Observables in Elastic pp and p(bar)p Scattering at SPASCHARM Program
Measurements of spin observables in elastic pp and p(bar)p scattering at 16 GeV will be conducted at the SPASCHARM program using a unique setup with polarized proton and antiproton beams. The experiment aims to extend the energy range for spin studies and compare elastic scattering in pp and p(bar)p
0 views • 24 slides
Understanding Light Scattering Part 2: Solute Characteristics and Applications
Light scattering can provide valuable insights into solute characteristics such as molecular weight, radius of gyration, and second virial coefficient. By analyzing scattering data, information about individual particles and their arrangement in solution can be obtained. Techniques like Zimm or Guin
0 views • 20 slides
Understanding Radiative Transfer and Volume Path Tracing
Explore the mathematical model of radiative transfer for simulating light scattering in participating media and translucent materials through volume path tracing. Learn about subsurface scattering and how radiance changes along ray segments in participating media. Delve into the origins and applicat
0 views • 44 slides
Understanding Scattering Phenomenon: Key Concepts and Applications
Scattering is a fundamental process involving the interaction of light with particles, impacting various fields such as physics and environmental science. Learn about its measurement theory, dependence on physical properties, and examples like Rayleigh theory for small particle scattering and impact
0 views • 36 slides
Resonance Phenomena in Grating Structures and Applications
Resonance phenomena in grating structures, such as dielectric or metal gratings on substrates, offer sensitive elements for detecting biological and chemical agents. The sensitivity of these structures is described by equations relating to resonant wavelength changes and the refractive index of inve
0 views • 20 slides
Insights into Intra-Beam Scattering Effects and Plasma Dynamics in Particle Colliders
Intra-Beam Scattering (IBS) effects near transition crossing in NICA collider result in energy exchange between different degrees of freedom, impacting beam size, luminosity, and lifetime. The IBS phenomenon is crucial for circular machines, with theoretical developments by Piwinski and Bjorken shap
0 views • 15 slides
Study on THz Wave Scattering from Slightly Rough Surfaces: Interference and Implications
Overview of polarized THz wave scattering from slightly rough surfaces such as wooden tables and walls. The document discusses the induced interference between short-distance THz links and presents a model of electromagnetic wave scattering with examples of experimental and numerical results. Potent
0 views • 17 slides
Insights into Nuclear Radius and Electron Scattering Experiments
Delve into the realm of nuclear physics with a focus on nuclear radii and electron scattering experiments led by lecturer Hans-Jürgen Wollersheim. Explore topics such as de Broglie wavelength, double-slit experiment, Mott scattering, charge distribution, and the use of electrons as probes to measur
0 views • 9 slides
Understanding Bloom Effects in Game Design
Bloom effects, such as weak scattering and convolution, enhance the visual appeal of games by simulating light scattering. They add realism and customization options to game graphics, improving the overall visual experience. Weak scattering causes subtle yet impactful effects like glare and diffract
1 views • 14 slides
Understanding Resonances in Planet Formation
Resonances play a crucial role in planetary systems, where characteristic frequencies align to produce dynamical consequences. Mean motion resonances, spin-orbit resonances, and secular resonances are key examples influencing planetary dynamics. Explore resonant angles, resonant arguments, and examp
0 views • 17 slides
Atmospheric Correction Techniques for Satellite Image Enhancement
Atmospheric correction is essential for improving the quality of Remote Sensing images captured by satellites. This process involves correcting for the effects of atmospheric gases such as scattering and absorption on the measured Top-of-Atmosphere (TOA) reflectance. Techniques like molecular correc
0 views • 8 slides