Conferences related to Colliding beam accelerators

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2020 IEEE 21st International Conference on Vacuum Electronics (IVEC)

Technical presentations will range from the fundamental physics of electron emission and modulated electron beams to the design and operation of devices at UHF to THz frequencies, theory and computational tool development, active and passive components, systems, and supporting technologies.System developers will find that IVEC provides a unique snapshot of the current state-of-the-art in vacuum electron devices. These devices continue to provide unmatched power and performance for advanced electromagnetic systems, particularly in the challenging frequency regimes of millimeter-wave and THz electronics.Plenary talks will provide insights into the history, the broad spectrum of fundamental physics, the scientific issues, and the technological applications driving the current directions in vacuum electronics research.


2020 IEEE International Conference on Plasma Science (ICOPS)

IEEE International Conference on Plasma Science (ICOPS) is an annual conference coordinated by the Plasma Science and Application Committee (PSAC) of the IEEE Nuclear & Plasma Sciences Society.


2020 IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC)

All areas of ionizing radiation detection - detectors, signal processing, analysis of results, PET development, PET results, medical imaging using ionizing radiation


2019 Particle Accelerator Conference (PAC)

Particle accelerator science and technology


2007 Power Conversion Conference - Nagoya (PCC)



Periodicals related to Colliding beam accelerators

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Applied Superconductivity, IEEE Transactions on

Contains articles on the applications and other relevant technology. Electronic applications include analog and digital circuits employing thin films and active devices such as Josephson junctions. Power applications include magnet design as well asmotors, generators, and power transmission


Computer

Computer, the flagship publication of the IEEE Computer Society, publishes peer-reviewed technical content that covers all aspects of computer science, computer engineering, technology, and applications. Computer is a resource that practitioners, researchers, and managers can rely on to provide timely information about current research developments, trends, best practices, and changes in the profession.


Instrumentation & Measurement Magazine, IEEE

Applications-oriented material in the field of instrumentation and measurement.


Instrumentation and Measurement, IEEE Transactions on

Measurements and instrumentation utilizing electrical and electronic techniques.


Magnetics, IEEE Transactions on

Science and technology related to the basic physics and engineering of magnetism, magnetic materials, applied magnetics, magnetic devices, and magnetic data storage. The Transactions publishes scholarly articles of archival value as well as tutorial expositions and critical reviews of classical subjects and topics of current interest.


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Most published Xplore authors for Colliding beam accelerators

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Xplore Articles related to Colliding beam accelerators

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P1–9: Development of a 10 MW 1.3 GHz annular beam klystron for ILC

2010 IEEE International Vacuum Electronics Conference (IVEC), 2010

This paper describes a 10 MW, 1.3 GHz klystron for ILC that uses an annular beam, providing a perveance of 3.3 micropervs. The beam voltage is 120 kV, and the calculated efficiency is 60%. The principal components of the device, including the RF structure, electron gun, magnetics, and output coupling are described.


Simulation of accelerating structures with large staggered tuning

Conference Record of the 1991 IEEE Particle Accelerator Conference, 1991

One idea for controlling multibunch beam breakup in future linear colliders is to use accelerating structures that have a large ( approximately 10%) staggered tuning, that is, a large cell-to-cell spread in frequencies of the transverse dipole modes. Simulations of such structures using the programs TBCI and LINACBBU are compared. Issues relevant to the design and optimization of such structures, ...


Design description of the SSC High Energy Booster

Conference Record of the 1991 IEEE Particle Accelerator Conference, 1991

A description of the design and operation of the High Energy Booster is presented. This includes an overview of the general geometry of the ring followed by details of the various lattice components. Aspects of the injection, abort, extraction, and resonant extraction processes are presented. The RF system and some plans for the operational cycles are also given.<<ETX>>


Maintaining micron-size beams in collision at the interaction point of the Stanford Linear Collider

Conference Record of the 1991 IEEE Particle Accelerator Conference, 1991

In order to maintain collisions between two micron-sized beams at the interaction point of the SLC, the mutual electromagnetic deflection induced by one beam on the other as they cross with a nonzero relative impact parameter is utilized. The incoming and outgoing trajectory parameters of each beam are determined simultaneously on a pulse-by-pulse basis, using beam position monitors located near ...


Lattice function perturbations caused by the beam-beam interaction

Conference Record of the 1991 IEEE Particle Accelerator Conference, 1991

A model of the beam-beam interaction has been used to explain the discrepancy between the luminosity as derived from experimental counting rates versus the luminosity derived from beam measurements. The physical picture is that the beam-beam interaction distorts the lattice functions of the machine. These distortions change the real luminosity by altering the beam size at the IR. The calculated ...


More Xplore Articles

Educational Resources on Colliding beam accelerators

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IEEE.tv Videos

Quantum Accelerators for High-Performance Computing Systems - IEEE Rebooting Computing 2017
Improved Deep Neural Network Hardware Accelerators Based on Non-Volatile-Memory: the Local Gains Technique: IEEE Rebooting Computing 2017
Superconducting RF Cavities and Future Particle Accelerators - Applied Superconductivity Conference 2018
IMS 2014: Wideband mmWave Channels: Implications for Design and Implementation of Adaptive Beam Antennas
A 60GHz Packaged Switched Beam 32nm CMOS TRX with Broad Spatial Coverage, 17.1dBm Peak EIRP, 6.1dB NF at <250mW: RFIC Industry Showcase
Maker Faire 2008: Light-Seeking Mouse Robots
Future Circular Colliders, CERN, Geneva, Switzerland
IMS 2014: Design and Analysis of a Low-Profile 28 GHz Beam Steering Antenna Solution for Future 5G Cellular Applications
Raspberry Pi High Speed SerDes Characterization Platform
Generalize or Die: Operating System Support for Memristor-based Accelerators: IEEE Rebooting Computing 2017
Brooklyn 5G Summit 2014: Channel Measurements Summary by Ted Rappaport
A 28GHz CMOS Direct Conversion Transceiver with Packaged Antenna Arrays for 5G Cellular Systems: RFIC Industry Showcase 2017
Future of Computing: Memory/Storage - Steve Pawlowski - ICRC San Mateo, 2019
CASS Lecture by Dr. Chris Hull, "Millimeter-Wave Power Amplifiers in FinFET Technology"
Testing My New Robot Body
One HTS Josephson Junction, An Array of Applications: Has anything come from HTS devices in the last 30 years?
Superconductors for the Future from the Perspective of the Past
Brooklyn 5G Summit: Enabling 5G Gigabit Interactivity Everywhere
ASC-2014 SQUIDs 50th Anniversary: 2 of 6 - John Clarke - The Ubiquitous SQUID
Larson Collection interview with Rudolph Peierls

IEEE-USA E-Books

  • P1–9: Development of a 10 MW 1.3 GHz annular beam klystron for ILC

    This paper describes a 10 MW, 1.3 GHz klystron for ILC that uses an annular beam, providing a perveance of 3.3 micropervs. The beam voltage is 120 kV, and the calculated efficiency is 60%. The principal components of the device, including the RF structure, electron gun, magnetics, and output coupling are described.

  • Simulation of accelerating structures with large staggered tuning

    One idea for controlling multibunch beam breakup in future linear colliders is to use accelerating structures that have a large ( approximately 10%) staggered tuning, that is, a large cell-to-cell spread in frequencies of the transverse dipole modes. Simulations of such structures using the programs TBCI and LINACBBU are compared. Issues relevant to the design and optimization of such structures, such as choice of cell frequency distribution and role of cell-to-cell coupling are discussed.<<ETX>>

  • Design description of the SSC High Energy Booster

    A description of the design and operation of the High Energy Booster is presented. This includes an overview of the general geometry of the ring followed by details of the various lattice components. Aspects of the injection, abort, extraction, and resonant extraction processes are presented. The RF system and some plans for the operational cycles are also given.<<ETX>>

  • Maintaining micron-size beams in collision at the interaction point of the Stanford Linear Collider

    In order to maintain collisions between two micron-sized beams at the interaction point of the SLC, the mutual electromagnetic deflection induced by one beam on the other as they cross with a nonzero relative impact parameter is utilized. The incoming and outgoing trajectory parameters of each beam are determined simultaneously on a pulse-by-pulse basis, using beam position monitors located near the IP. Comparing incoming and outgoing angles for a given beam yields the magnitude of the deflection the beam experienced during the collision from which the distance currently separating the two beams can be extracted. A simple proportional control is applied to calculate the change in upstream corrector settings to null out this distance.<<ETX>>

  • Lattice function perturbations caused by the beam-beam interaction

    A model of the beam-beam interaction has been used to explain the discrepancy between the luminosity as derived from experimental counting rates versus the luminosity derived from beam measurements. The physical picture is that the beam-beam interaction distorts the lattice functions of the machine. These distortions change the real luminosity by altering the beam size at the IR. The calculated luminosity is also affected in that the lattice distortions cause beam parameters to be incorrectly determined.<<ETX>>

  • The Final Focus Test Beam project

    An overview is given of the Final Focus Test Beam (FFTB), which is being constructed as a prototype final focus system for a future electron-positron linear collider. This beam line will use as input the 50-GeV electron beam from the Stanford Linear Collider (SLC) linac, and is designed to reduce the transverse dimensions of the beam spot at the focal point to 1 mu m*0.06 mu m.<<ETX>>

  • Chromaticity corrections in the SLC final focus system

    The current technique of measuring the IP (interaction point) chromaticities in the SLC final focus system is presented. A semiempirical correction scheme has been successfully implemented to control the IP chromaticities, as characterized by the waist position dependence on the beam energy to better than 0.5 cm/100 MeV. Several outstanding issues needing further improvement are identified, and possible courses of efforts in the near future are discussed.<<ETX>>

  • Emittance growth due to beam motion

    When a beam undergoes a collective oscillation its emittance tends to grow because of variations in betatron tune which are due to energy spread and chromaticity and to nonlinear lattice characteristics. The authors estimate the emittance growth in the SSC (Superconducting Super Collider) caused by the measured ground motions at the SSC site and by beam-beam effects in the Jostlein beam-centering scheme.<<ETX>>

  • Design calculations of the CLIC transfer structure

    The power required for acceleration in the main linac of CLIC (CERN Linear Collider) is generated by a high current, moderate energy drive beam. The transfer structure will extract this power at 30 GHz from the the drive beam. A design under study consists simply of a circular cylindrical beam tube of relatively large diameter (16 mm) which is coupled to the wide side of one or more rectangular output waveguides through rows of coupling holes. Output waveguide cutoff and coupling hole spacing are chosen such that the beam is synchronous with the backward TE/sub 10/ wave of the output waveguide at 30 GHz. The RF pulse length is controlled by the length of coupling sections. By placing output waveguides on both sides of the beam tube, 160 MW/m can be extracted with section lengths of 35 cm. Numerical studies show that the desired power level can be reached with small coupling holes.<<ETX>>

  • Simulations on pair creation from beam-beam interaction in linear colliders

    The authors modify the computer code ABEL (analysis of beam-beam effects in linear colliders) to include the pair creation processes, using the equivalent photon approximation. Special care has been taken on the nonlocal nature of the virtual photon exchanges. The simulation results are compared with analytic formulas, and are applied to the next-generation colliders such as JLC.<<ETX>>



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