Quantum Physics Research on Electron Wavefunctions and Double-Beta Decay
Researchers at the University of Tsukuba study electron wavefunctions using the Dirac equation and analyze double-beta decay in nuclei. The calculation of phase space factors, nuclear matrix elements, and bound and scattering states of electrons are explored to understand fundamental particles and t
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Tutorial on DIRAC Web Interface for JUNO DCI Group
Explore the functionalities of the DIRAC web interface, with features like checking task and job statuses, site statuses, and submitting jobs easily. Learn how to load user certificates, upload proxies, and manage job launchpads effectively. Dive into exercises for submitting jobs, using parameters
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Understanding Fourier Transforms and Properties
Fourier transforms play a crucial role in signal processing by transforming signals between time and frequency domains. This outline covers the basics of Fourier transforms, discrete Fourier transforms, Fourier series, properties like symmetry and reciprocity, resolution in time and frequency, the D
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Understanding Silicon Detector Technology
Silicon is a remarkable material with low energy requirements for creating e-hole pairs, long mean free paths, high mobility for fast charge collection, and well-developed technology for fine lithography. Silicon detectors operate based on carrier band diagrams, density of states, and Fermi-Dirac di
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Understanding Fermi-Dirac Statistics in Solids
Electrons in solids obey Fermi-Dirac statistics, governed by the Fermi-Dirac distribution function. This function describes the probability of electron occupation in available energy states, with the Fermi level representing a crucial parameter in analyzing semiconductor behavior. At different tempe
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Understanding Band Population in Semiconductors
Exploring the concepts of electron and hole population in semiconductor bands through the Fermi-Dirac function, density of states, and Fermi energy. Learn how the Fermi function influences carrier concentration, the difference between metals and semiconductors in band structure, and the behavior of
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Grand Canonical Ensemble in Statistical Mechanics: Fermi-Dirac Distribution
Exploring the Fermi-Dirac distribution function and the Bose-Einstein distribution in the context of the grand canonical ensemble for non-interacting quantum particles. The lecture delves into the impact of particle spin on energy spectra, enumeration of possible states, self-consistent determinatio
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Development of Quantum Statistics in Quantum Mechanics
The development of quantum statistics plays a crucial role in understanding systems with a large number of identical particles. Symmetric and anti-symmetric wave functions are key concepts in quantum statistics, leading to the formulation of Bose-Einstein Statistics for bosons and Fermi-Dirac Statis
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Understanding Grid Certificate and VOMS for JUNO DCI Group
The Grid certificate system is crucial for users of JUNO DCI's distributed computing resources, mapping users to local pools. Learn about applying for a personal CA, registering VOMS, and creating a DIRAC-proxy for access. Dive into the authentication and authorization model, CA certification proces
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Covariant Phase Space Formalism in Nonabelian Gauge Theories
The presentation focuses on the covariant phase space formalism in nonabelian gauge theories, aiming to derive the symplectic form and Poisson/Dirac brackets systematically from the Lagrangian. By applying canonical quantization methods, the structure of the infrared sector in such theories can be d
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Advanced Cloud Computing Solutions with DIRAC Services
Explore advanced cloud computing solutions offered by DIRAC services at IN2P3, including maintenance, operation, VM scheduling, and contextualization. Learn about dynamic VM spawning, cloud endpoint abstraction, and virtual machine monitoring for efficient resource allocation. Stay updated on the la
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Insights into Hyperfine Structure of Light Muonic Atoms by Paul Indelicato
Delve into the hyperfine structure of lower states of light muonic atoms through theoretical evaluations, QED corrections, and contributions at all orders. Explore the intricate aspects of hyperfine interactions and corrections in the framework of the Dirac equation for bound electrons, providing a
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Relativistic Treatment of Spin Particles: Dirac Equation & Special Relativity
Exploring the Dirac equation for spin particles within the framework of special theory of relativity. Topics covered include energy-momentum relationships, basics of special relativity, Lorentz transformations, and relativistic effects on particles. The lecture delves into the interplay between quan
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