1,190 research outputs found
Fast beam-ion instability simulations in the TESLA electron damping ring and the FEL beam transfer line
The Fast Beam-Ion Instability is considered potentially harmful in electron storage rings and linear colliders with short bunch spacing and high bunch charge, as it is the case in the proposed electron damping ring and the FEL beam transfer line of the future linear collider TESLA. This instability arises from interaction between a stored bunch and an ion cloud previously created by all heading bunches during a single pass. To study this effect and to determine the required vacuum conditions, a simulation code has been developed. The results of these simulation studies are presented in this paper
Advanced manned space flight simulation and training: An investigation of simulation host computer system concepts
The findings of a preliminary investigation by Southwest Research Institute (SwRI) in simulation host computer concepts is presented. It is designed to aid NASA in evaluating simulation technologies for use in spaceflight training. The focus of the investigation is on the next generation of space simulation systems that will be utilized in training personnel for Space Station Freedom operations. SwRI concludes that NASA should pursue a distributed simulation host computer system architecture for the Space Station Training Facility (SSTF) rather than a centralized mainframe based arrangement. A distributed system offers many advantages and is seen by SwRI as the only architecture that will allow NASA to achieve established functional goals and operational objectives over the life of the Space Station Freedom program. Several distributed, parallel computing systems are available today that offer real-time capabilities for time critical, man-in-the-loop simulation. These systems are flexible in terms of connectivity and configurability, and are easily scaled to meet increasing demands for more computing power
Beam-beam effects in space charge dominated ion beams
During low-energy operations below the regular injection energy in the
Relativistic Heavy Ion Collider (RHIC), significant beam lifetime reductions
due to the beam-beam interaction in conjunction with large space charge tune
shifts have been observed. We report on dedicated experiments aimed at
understanding this phenomenon as well as preliminary simulation results, and
propose alternative working points to improve the beam lifetime in future
lowenergy RHIC runs.Comment: 6 pages, contribution to the ICFA Mini-Workshop on Beam-Beam Effects
in Hadron Colliders, CERN, Geneva, Switzerland, 18-22 Mar 201
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Future BNL plans for a polarized electron-ion collider (eRHIC)
To provide polarized electron-proton collisions of {radical}s = 100 GeV; addition of a 10 GeV electron accelerator to the existing RHIC facility is currently under study. Two design lines are under consideration: a self-polarizing electron ring, and an energy recovery linac. While the latter provides significantly higher luminosities, it is technologically very challenging. We present both design approaches and discuss their advantages and limitations
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Lattice design for head-on beam-beam compensation at RHIC
Electron lenses for head-on beam-beam compensation will be installed in IP 10 at RHIC. Compensation of the beam-beam effect experienced at IP 8 requires betatron phase advances of {Delta}{psi} = k {center_dot} {pi} between the proton-proton interaction point at IP 8, and the electron lens at IP 10. This paper describes the lattice solutions for both the BLUE and the YELLOW ring to achieve this goal
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adron Beam Emittance Growth Due to Electron Beam Parameter Jitter in Linac-Ring Electron-Ion Colliders
N/
An Investigation on Cooling of CZT Co-Planar Grid Detectors
The effect of moderate cooling on CdZnTe semiconductor detectors has been
studied for the COBRA experiment. Improvements in energy resolution and low
energy threshold were observed and quantified as a function of temperature.
Leakage currents are found to contribute typically 5 keV to the widths of
photopeaks.Comment: 14 pages, 9 figures. Accepted for publication in Nuclear Inst. and
Methods in Physics Research,
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