Bloomsbury Furniture, a chief supplier of ergonomic arrangements, presents the mesh chair in Delhi NCR, rethinking solace and style in office seating. Made with breathable lattice material, this seat guarantees ideal wind current, keeping you cool and agreeable all through your business day. Its erg

0 views • 2 slides

Antigen-antibody precipitation reaction involves the formation of insoluble products when a soluble bivalent antibody interacts with a soluble antigen. This reaction leads to the formation of a visible precipitate known as a lattice. The mechanism of precipitation, including the prozone phenomenon,

0 views • 20 slides

Zero field splitting in ESR spectroscopy involves the relaxation times in ESR and how spin-lattice relaxation affects the spectral width. Discover how T1 value and spin lattice relaxation play a crucial role in observing sharp spectrum lines in EPR. Learn about line widths in ESR, spin dilution, and

0 views • 21 slides

Explore the world of ionic bonding through images and explanations. Learn how electrons are transferred to form ions, the arrangement of ions in a crystal lattice, and the concept of lattice energy in ionic compounds. Discover the formation of formula units, examples of bond pairs, and the significa

1 views • 18 slides

Discover the beauty and intricacies of poetry through the exploration of images depicting Cicada, Lattice Lichens, Lyric Ode, and poetic analysis. Dive into the world of Odes, Lyrical poems, and analyze how poets use form and figurative language to express emotions and ideas. Uncover themes of natur

0 views • 6 slides

Using Density Functional Theory (DFT) calculations, we explore how to determine the lattice constant of simple cubic, face-centered cubic (fcc), and hexagonal close-packed (hcp) materials. By fitting numerical data and analyzing energy considerations, we predict lattice constants for various metal s

0 views • 17 slides

Learn essential concepts such as drawing Wigner-Seitz cells, identifying lattice directions, using direction/plane notations, locating directions/planes, and calculating distances in cubic or orthorhombic lattices. Explore various ways to define a unit cell within a lattice, including the Wigner-Sei

0 views • 25 slides

Investigation led by L. Gutay at Purdue University, in collaboration with other researchers, presented evidence for de-confinement in high-energy collisions. The E-735 experiment at 1.8 TeV utilized advanced detectors and percolation theory to analyze multiparticle production, showcasing a potential

3 views • 20 slides

Workshop on Neutron Electric Dipole Moment: Theory to Experiment will be held in Trento from August 1st to August 5th, 2022. The event aims to bridge the gap between theory and experiment in investigating the neutron EDM in Lattice QCD, Phenomenology, and Cosmology. Renowned speakers and financial s

1 views • 10 slides

Exploring the significance of crystal lattice planes in determining parameters, diffraction methods, and orthogonal systems. Discover how to identify planes and calculate distances in various lattices using Miller indices. Visual aids provide clarity on hexagonal structures and symmetry in crystallo

0 views • 22 slides

SCET, a soft collinear effective theory, describes interactions between low energy, soft partonic fields, and collinear fields in QCD. It helps prove factorization theorems and identifies relevant scales. The SCET Lagrangian is formed by gauge invariant building blocks, enabling gauge transformation

0 views • 38 slides

Two-dimensional adjoint QCD is explored with a basis-function approach aiming to achieve single-particle states over cluttered multi-particle states. The algebraic solution involves t'Hooft-like integral equations and pseudo-cyclicity considerations to address parton number violation and boundary co

0 views • 22 slides

Explore various web lattice design and simulation tools such as OPA by Paul Scherrer Institute, Elegant by Radiabeam, Pyton source, and more. Dive into applications like OPA Tracking, Non-linear Dynamics, and Phase Space visualization.

0 views • 11 slides

Explore the collective phenomena of gluon fields in classical QCD, focusing on the Standard Model of URHICs, Color Glass, and Gluon Fields in the Forward Lightcone. The research delves into topics like local thermal equilibrium, viscous hydrodynamics, and the interaction of probes with quarks and gl

0 views • 24 slides

Investigating the transition mechanisms in materials such as Cu2S and Fe3O4 using ultrafast electron diffraction techniques to understand the interplay between electronic degrees of freedom and lattice dynamics. By monitoring structural evolution in the ultrafast time domain, the project aims to she

0 views • 16 slides

Investigate the thermodynamics of SU(3) gauge theory through gradient flow, discussing energy-momentum stress pressure, Noether current, and the restoration of translational symmetry. The study delves into lattice regularization, equivalence in continuum theory, and measurements of bulk thermodynami

0 views • 40 slides

Investigating CP violation in low-energy QCD, this presentation by Sean Tulin from the University of Michigan delves into the sensitivities of decays to new physics, focusing on CP violation beyond the Standard Model and the potential existence of new weakly-coupled light forces hiding under QCD. Di

0 views • 37 slides

Explore the complex realm of nucleon spin decomposition and the enigmatic proton spin problem, delving into concepts like orbital angular momentum, quarks and gluons' helicity, and longitudinal double spin asymmetry in polarized deep inelastic scattering. Learn about the spin crisis, gluon polarizat

0 views • 26 slides

This study delves into the concept of nuclear symmetry energy through the lens of QCD Sum Rule, discussing its implications in Rare Isotope Accelerator Plan and nucleon-nucleus scattering. Utilizing mean field approximation and Borel transformation, the research aims to understand asymmetric nuclear

0 views • 21 slides

The Annual Meeting of the GDR PH-QCD focused on discussing Transverse Momentum Distributions (TMDs) and their significance at small kT and small x values. Topics covered include gauge-invariant correlators, PDFs, and PFFs, as well as the utilization of color gauge links in describing partonic transv

0 views • 33 slides

Understanding the nuclear symmetry energy in the context of Quantum Chromodynamics (QCD) is essential for nuclear phenomenology. This study explores topics such as QCD sum rules, mean field approximation, and operator product expansion to decipher the energy properties of nuclear systems. The resear

0 views • 15 slides

Investigating the modification of nucleon properties in the nuclear medium using QCD sum rules, focusing on hadron properties, mass spectrum, and chiral symmetry restoration. The study discusses the mass differences, non-perturbative contributions, and the analysis of QCD sum rule in nuclear matter.

0 views • 27 slides

Lattice research is vital for determining the characteristics of accelerators, colliders, and storage rings. High beam brightness is crucial for achieving goals like luminosity and beam loss reduction. The main barriers to higher beam brightness include instabilities and particle loss. General requi

0 views • 13 slides

Explore the intricacies of lattice problems such as Learning With Errors (LWE) and Short Integer Solution (SIS), and their relation to the Knapsack Problem. Delve into the hardness of these problems and their applications in building secure cryptographic schemes based on polynomial rings and lattice

0 views • 44 slides

This study focuses on optimizing the dynamic aperture of the ion ring lattice, covering topics such as correct chromaticity, aperture scanning, effects of alignment and field errors, and correction procedures. The comparison of various lattice schemes provides insights into aperture characteristics,

0 views • 25 slides

Explore simple lattice trapdoor sampling techniques for generating vector s such that As = t, without revealing the trapdoor in a protocol. Learn about algorithms and methods for constructing trapdoors, Gaussian distributions, and easily invertible matrices in the context of cryptographic protocols.

0 views • 19 slides

Study of mesons in medium and their behavior using QCD sum rule with dim-6 operators, exploring mass shifts, broadening, and indicators of quark-gluon plasma. Specifically focuses on charmonium sequential dissociation and non-perturbative methods in QCD such as lattice QCD and Dyson-Schwinger equati

0 views • 27 slides

Delve into the world of exotic glueballs and hadrons through a review of QCD sum rule, investigation of light scalar mesons, and discussion on hadrons with unconventional quantum numbers. Learn about theoretical frameworks and calculations involving correlators, dispersion relations, Borel transform

0 views • 32 slides

This work discusses fast high-dimensional filtering techniques in Fully-Connected Conditional Random Fields (CRF) through methods like Gaussian filtering, bilateral filtering, and the use of permutohedral lattice. It explores efficient inference in CRFs with Gaussian edge potentials and accelerated

0 views • 25 slides

Engage students aged 11-16 in an interactive activity to understand the physical properties of ionic substances such as high melting points, ability to conduct electricity, and brittleness. By building a model of an ionic lattice for sodium chloride and explaining how the structure relates to these

0 views • 5 slides

Study conducted by Ming-Jen Yang from the MI Department on Nov 28, 2018, involving measurements and matching of MI8 Line to RR Lattice. The study includes data on horizontal and vertical planes, dispersion data, frequency range, and orbit responses for various components.

0 views • 20 slides

Public-key cryptography, including the BLISS lattice-based signature scheme, is pervasive in digital security, from code signing to online communication. The looming threat of scalable quantum computers has led to the development of post-quantum cryptography, such as lattice-based cryptography, whic

0 views • 13 slides

Precision Physics at Colliders explores the selection, measurement, and utilization of data at colliders, focusing on fundamental symmetries and parameters of the Standard Model. The lectures cover topics such as QCD, top, electroweak, and flavor physics, emphasizing the importance of precision meas

0 views • 42 slides

This research study delves into the realm of neutrino transport in holography, focusing on the interaction of neutrinos with dense QCD matter in the core. Motivations, formalisms, holographic set-up, and the holographic correspondence are explored using a toy model of quark matter in 4SYM and utiliz

0 views • 32 slides

Chemical bonds play a crucial role in holding atoms together in molecules. This course explores the concept of chemical bonding, focusing on ionic bonds and lattice energy. Topics covered include the different types of chemical bonds, such as electrovalent and coordinate bonds, as well as the models

0 views • 22 slides

This research presentation by Ali Davody and collaborators from Regensburg University explores collective excitations in QCD plasma, focusing on chiral hydrodynamics, magnetic and vortical waves, hydrodynamic excitation descriptions, and modes derived from kinetic theory. The study delves into the d

0 views • 33 slides

Explore equitable rectangular dissections and their applications in VLSI layout, graph mapping, and combinatorial problems in this scholarly work by Dana Randall from Georgia Institute of Technology. Discover the concept of partitioning an n x n lattice region into n2/a rectangles or areas where cor

0 views • 32 slides

Lattice design and parameters for the double ring scheme of the Circular Electron Positron Collider (CEPC) main ring discussed at the CEPC AP meeting in January 2016. The outline covers the CEPC parameters for C=100km, including the lattice design and geometry for different regions. Details on energ

0 views • 14 slides

Lattice design and dynamic aperture optimization for the Circular Electron Positron Collider (CEPC) main ring were discussed, focusing on maximizing the dynamic aperture through lattice configurations in the ARC region, interaction region, and partial double ring region. Various strategies such as c

0 views • 14 slides

Explore the fundamentals of lattice-based cryptography and the significance of solving linear equations in cryptography. Learn about the exponential hardness and quantum resistance of lattice-based crypto, as well as the challenges and techniques involved in solving linear equations with various str

2 views • 29 slides