High-energy recycling in E+ E- colliders involves the innovative concept of Energy Recovery Linacs (ERLs), pioneered by experts like Vladimir N. Litvinenko. These ERLs effectively recycle energy from collided beams, reducing energy consumption and increasing collider efficiency by maximizing luminos

1 views • 21 slides

Valerio Calvelli from CEA Paris-Saclay presented the status of the MARCO Solenoid magnet for the Electron-Ion Collider User Group Meeting 2023. The presentation covered an overview of the detector solenoid, magnet specifications, design status, cold mass details, and interaction length limits, provi

0 views • 21 slides

The Magnet Kindergarten program faces challenges with assessing young children for enrollment. Short-term solutions include addressing barriers such as hidden assessments and difficulty in recruiting Pre-K students. Research emphasizes skill development and targeted supports for gifted kindergartene

2 views • 10 slides

Vladimir Shiltsev's presentation at DPF-PHENO 2024 discusses the evolution of accelerator R&D in high-energy physics, emphasizing the need for off-shore Higgs factories and targeted collider developments. The P5 recommendations underscore the importance of engaging in feasibility studies for advance

0 views • 28 slides

T.H. Rogers is a Vanguard Magnet School in Houston, Texas that specializes in gifted and talented education. This program offers accelerated instruction for identified students with a focus on academics and character development. Students must apply, qualify as GT, and be selected via the HISD Magne

0 views • 52 slides

This work package focuses on assessing feasibility issues and technological challenges of RF systems for a high-energy muon collider. Tasks include defining RF systems for acceleration and cooling complexes, addressing high gradients, beam loading, breakdown mitigation, and optimizing cavity distrib

0 views • 11 slides

LHC's experience highlights the significant advantages of sorting in magnet systems, such as safeguarding against losses in mechanical and dynamic apertures, minimizing beta-beating, and enhancing field quality. By controlling observable quantities like mechanical aperture, transfer function, and fi

0 views • 8 slides

Utilizing Python code, the study analyzes the limits of accelerator dipole and quadrupole for the Muon Collider. Analytic formulas are implemented to assess the behavior of these components based on critical current density, operating temperatures, and superconductor materials. The study explores li

0 views • 17 slides

Lessons learned from the HERA collider regarding its operation, detectors, experiments, and challenges faced. Acronyms like HERA, H1, ZEUS are explained, along with details on beam collisions and detectors used. Personal insights and caveats shared by a researcher who was involved in the HERA projec

0 views • 20 slides

Tasks involved in the alignment and installation optimization of components in the Circular Electron Positron Collider (CEPC) project include control network construction, component installation, smooth alignment, and addressing any arising problems. The process is crucial for the successful operati

2 views • 19 slides

This study focuses on the long-term monitoring and variation of magnet alignment in the SPring-8 storage ring. It includes detailed information on the main events of magnet alignment, monument surveys, magnet installations, and alignment monitoring techniques used over the years at the facility. The

0 views • 30 slides

The Kabam Collider team aims to tackle Apple's pricing restrictions by implementing region-specific sales strategies and conducting A/B testing to estimate demand. They suggest adjusting in-game item prices instead of exchange rates, emphasizing revenue maximization through optimal pricing strategie

0 views • 21 slides

The research conducted at The Ohio State University focuses on understanding the magnetization, decay, and influence of error fields in high-temperature superconducting (HTS) accelerator magnets. The study explores the impact of different superconducting materials such as Nb3Sn, YBCO, and Bi:2212 on

0 views • 21 slides

Investigating invisible Higgs decays plays a crucial role in unveiling potential signals of new physics, like Dark Sectors or Dark Matter. The search for invisible Higgs decays at the International Linear Collider (ILC) and the Large Hadron Collider (LHC) involves unique techniques such as recoil ma

0 views • 18 slides

The positional relationship between the Circular Electron-Positron Collider (CEPC) and the Super Proton-Proton Collider (SPPC) involves careful considerations such as bypass tunnels, compatibility for future e-P collision programs, and shielding in the tunnel. Various scenarios are discussed regardi

0 views • 8 slides

David Neuffer presented the current status of front end systems for particle colliders on December 4, 2014. The presentation covered various aspects like baseline examples, beam characteristics, drift mechanisms, cooling methods, and simulation results. It provided insights into the operational mech

0 views • 15 slides

Initiatives like the CEPC-SppC Study Group and Circular Electron Positron Collider (CEPC) showcase China's commitment to pioneering future collider projects. With a focus on the energy frontier, developments such as the upgrade to a 50-70 TeV pp collider indicate significant progress in the field. T

0 views • 32 slides

The evaluation and comparison of electricity power systems between the CEPC and FCCee accelerators reveal the power breakdowns, RF power consumption, magnet power supply, and overall power usage. Differences in power consumption for various components such as RF, magnets, and vacuum systems are high

0 views • 19 slides

The article discusses vacuum issues, design challenges, and experiences in the interaction regions of Electron-Ion Colliders. It explores the unique characteristics of the HERA collider, including beam currents, bunch spacing, and straight sections. Additionally, it covers the upgrades and improveme

0 views • 25 slides

The Accelerator Frontier Panel discusses the crucial components to enable future accelerators, emphasizing the need for a National Future Collider R&D Program, General Accelerator R&D, and adequate accelerator and test facilities. The message stresses the importance of an integrated future collider

0 views • 17 slides

The study discusses electron heating of ions in collider experiments at the Collider V. ParkhomchukBINP facility in Novosibirsk. It explores the effects of electron cooling on ion beams, ion beam oscillations, losses, and ion beam intensity enhancement. Various factors such as ion charge, classical

0 views • 9 slides

The CEPC collider magnet system comprises dual aperture dipole, dual aperture quadrupole, sextupole, and booster magnet designs. These magnets cover a significant portion of the 100km ring, addressing considerations such as manufacturing cost, power consumption, and field quality. The design focuses

0 views • 24 slides

This analysis focuses on the tune variation and decay of the bare machine tune in the Large Hadron Collider. It covers the evolution of the bare tune, analysis of the tune decay after injection, fitting of decay constants, and data extraction from 2015. The study includes insights into beam commissi

0 views • 16 slides

Investigating the effects of magnet errors on the Double Arc (DA) in the CEPC partial double ring, including alignment parameters, field errors, and their consequences on the orbit, tune, and stability of the beam. The study explores quadrupole, bending magnet, and sextupole field errors, highlighti

0 views • 13 slides

SuperKEKB is a cutting-edge circular collider facility that aims to push the boundaries of high-energy physics research. From addressing cloud challenges to conducting instability simulations, the facility has made significant strides in understanding beam dynamics and electron cloud effects. The co

0 views • 32 slides

Explore the latest developments in collider technology, focusing on precision electroweak measurements and discoveries at the energy frontier. Reports highlight advancements in circular colliders, linear colliders, and the status of machine designs and risks. Key topics include luminosity, energy re

0 views • 19 slides

Discussion at the US Muon Collider Community Meeting highlighted advancements in muon accelerator technology, with a focus on the Demonstrator by Katsuya Yonehara. Key topics included the layout of the muon accelerator complex, achievements in ionization cooling, and the MERcury Intense Target. The

0 views • 14 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

Scaling of high-energy e+e- ring colliders has been proposed for energy levels exceeding 200GeV by various authors. The suggested collider possibilities include different tunnel configurations and collider designs. Common features for reducing synchrotron radiation include large circumferences and l

0 views • 15 slides

The provided content discusses the current status of magnet structures and coils, including completion reports, testing updates, and coil availability. Key points include the disassembly of coils for testing, updated specifications for magnet excursions, and the arrival and review of various coils f

0 views • 6 slides

The CBM Dipole Magnet project, transitioning from Technical Design Report to Conceptual Design Review, involves key milestones such as the contract with BINP and recommendations from CDR meetings. The main parameters, construction details, coil structure, and conductor specifications are highlighted

0 views • 21 slides

Discussion on the requirements and advantages of different magnetic field strengths in detector solenoids at the Electron Ion Collider, emphasizing the impact on particle tracking, momentum resolution, and detector space needs. The analysis compares 1.5T and 3T fields, highlighting the implications

0 views • 9 slides

The MDP Technical Meeting #5 focuses on the conceptual design and comparative analysis of a 20 T hybrid HTS-LTS magnet. Goals include defining design criteria, exploring different design options, stress management techniques, and integrating LTS/HTS technologies. The working group aims to provide in

0 views • 46 slides

The Magnet Development Program Test Plan and Status Meeting held on March 18, 2020, at Fermi National Accelerator Laboratory focused on studying the effects of increased pre-load and altered end-support on magnet performance. The goals included measuring ramp rate, quench current, field quality, and

0 views • 12 slides

Delve into the world of innovation with the Berkeley Method, focusing on preparing students for diverse innovation opportunities in the new economy. The program, led by Ken Singer and Ikhlaq Sidhu, introduces the MTI program and the Innovation Collider Model at UC Berkeley. Explore the Innovation Co

0 views • 9 slides

This document provides detailed information on the magnet configurations at GSI Helmholtzzentrum GmbH, focusing on multiplet designs, magnetic field simulations, quadrupoles, sextupoles, and steering dipoles. It covers the general design of SC multiplets, requirements on axis and angles, and specifi

2 views • 17 slides

This study explores the use of high-temperature superconductors (HTS) for the CEPC detector magnet, focusing on Bi-2223, Bi-2212, and YBCO conductors. It discusses the properties of each conductor, their suitability for the magnet, and the decision to choose YBCO. The advantages and challenges of ut

0 views • 14 slides

Get an insight into the prestigious Magnet Program at North Springs High School that has been a cornerstone of its curriculum since 1989. Offering both Math & Science and Visual & Performing Arts magnets, students have various pathways to join this exceptional program. Discover the faculty, program

0 views • 21 slides

Dive into the world of collider physics with a focus on LHC results, future collider projects, and experiments from the Baikal Summer School 2021. Explore topics like invariant mass calculations, Higgs boson decays, particle acceleration in the LHC tunnel, and particle velocity considerations. Engag

0 views • 10 slides

The Magnet Development Program provides insights into the virtual working mode amid safety precautions at Lawrence Berkeley National Laboratory. Teams focus on data analysis, modeling, and writing papers during the downtime. The structure for meetings includes designated areas with coordinators for

0 views • 4 slides