18 research outputs found
The Injection System of the INFN-SuperB Factory Project: Preliminary Design
THPEA007International audienceThe ultra high luminosity B-factory (SuperB) project of INFN requires a high performance and reliable injection system, providing electrons at 4 GeV and positrons at 7 GeV, to fulfill the very tight requirements of the collider. Due to the short beam lifetime, continuous injection of electrons and positrons in both HER and LER rings is necessary to keep the average luminosity at a high level. Polarized electrons are required for experiments and must be delivered by the injection system, due to the beam lifetime shorter than the polarization build-up: they will be produced by means of a SLAC-SLC polarized gun. One or two 1 GeV damping rings are used to reduce e+ and e- emittances. Two schemes for positron production are under study, one with electron-positron conversion at low energy (<1 Gev), the second at 6 GeV with a recirculation line to bring the positrons back to the damping ring. Acceleration through the Linac is provided by a S-band RF system made of traveling wave, room temperature accelerating structures. An option to use the C-band technology is also presented
Baseline Design of the SuperB Factory Injection System
TUPPR088International audienceThe injection complex of the SuperB, B-factory project of INFN consists of a polarized electron gun, a positron production system, electron and positron linac sections, a positron damping ring and the transfer lines connecting these systems and the collider main rings. To keep the ultra high luminosity nearly constant, continuous injection of 4 GeV electrons and 7 GeV positrons in both Low Energy Ring (LER) and High Energy Ring (HER) is necessary. In this paper we describe the baseline design and the beam dynamics studies performed to evaluate the system performance
SuperB: next-generation e+e- B-factory collider
International audienceThe SuperB international team continues to optimize the design of an electron-positron collider, which will allow the enhanced study of the origins of flavor physics. The project combines the best features of a linear collider (high single- collision luminosity) and a storage-ring collider (high rep- etition rate), bringing together all accelerator physics as- pects to make a very high luminosity of 10^36 cm^−2 sec^−1 . This asymmetric-energy collider with a polarized electron beam will produce hundreds of millions of B-mesons at the Υ(4S) resonance. The present design is based on ex- tremely low emittance beams colliding at a large Piwin- ski angle to allow very low β⋆y without the need for ultra short bunches. Use of crab-waist sextupoles will enhance the luminosity, suppressing dangerous resonances and al- lowing for a higher beam-beam parameter. The project has flexible beam parameters, improved dynamic aperture, and spin-rotators in the Low Energy Ring for longitudinal po- larization of the electron beam at the Interaction Point. Op- timized for best colliding-beam performance, the facility may also provide high-brightness photon beams for syn- chrotron radiation applications
Experience with DAΦNE Upgrade Including Crab Waist
International audienceIn 2007 DAΦNE was upgraded to operate in a regime of large Piwinski angle, with a novel IR optics, reduced vertical beta at the interaction point, and additional sextupoles providing for crab waist collisions. The specific luminosity was boosted by more than a factor of four, and the peak luminosity was more than doubled with respect to the maximum value obtained with the original collider configuration. The DAΦNE commissioning as well as the first experience with large Piwinski angle and crab waist collisions scheme will be reported
AGILE detection of a rapid γ-ray flare from the blazar PKS 1510-089 during the GASP-WEBT monitoring
We report the detection by the AGILE satellite of a rapid gamma-ray flare
from the powerful gamma-ray quasar PKS 1510-089, during a pointing centered on
the Galactic Center region from 1 March to 30 March 2008. This source has been
continuosly monitored in the radio-to-optical bands by the GLAST-AGILE Support
Program (GASP) of the Whole Earth Blazar Telescope (WEBT). Moreover, the
gamma-ray flaring episode triggered three ToO observations by the Swift
satellite in three consecutive days, starting from 20 March 2008. In the period
1-16 March 2008, AGILE detected gamma-ray emission from PKS 1510-089 at a
significance level of 6.2-sigma with an average flux over the entire period of
(84 +/- 17) x 10^{-8} photons cm^{-2} s^{-1} for photon energies above 100 MeV.
After a predefined satellite re-pointing, between 17 and 21 March 2008, AGILE
detected the source at a significance level of 7.3-sigma, with an average flux
(E > 100 MeV) of (134 +/- 29) x 10^{-8} photons cm^{-2} s^{-1} and a peak level
of (281 +/- 68) x 10^{-8} photons cm^{-2} s^{-1} with daily integration. During
the observing period January-April 2008, the source also showed an intense and
variable optical activity, with several flaring episodes and a significant
increase of the flux was observed at millimetric frequencies. Moreover, in the
X-ray band the Swift/XRT observations seem to show an harder-when-brighter
behaviour of the source spectrum. The spectral energy distribution of mid-March
2008 is modelled with a homogeneous one-zone synchrotron self Compton emission
plus contributions from inverse Compton scattering of external photons from
both the accretion disc and the broad line region. Indeed, some features in the
optical-UV spectrum seem to indicate the presence of Seyfert-like components,
such as the little blue bump and the big blue bump
Updated Design of the Italian SuperB Factory Injection System
International audienceThe ultra high luminosity B-factory (SuperB) project of INFN requires a high performance and reliable injection system, providing electrons at 4 GeV and positrons at 7 GeV, to fulfill the very tight requirements of the collider. Due to the short beam lifetime, continuous injection of electrons and positrons in both HER and LER rings is necessary to keep the average luminosity at a high level. An updated version of the injection system, optimized at higher repetition frequency is presented. This scheme includes a polarized electron gun, a positron production scheme with electron/positron conversion at low energy 0.6 GeV, and a 1 GeV damping ring to reduce the injected emittance of the positron beam
The Injection System of the INFN-SuperB Factory Project: Preliminary Design
THPEA007International audienceThe ultra high luminosity B-factory (SuperB) project of INFN requires a high performance and reliable injection system, providing electrons at 4 GeV and positrons at 7 GeV, to fulfill the very tight requirements of the collider. Due to the short beam lifetime, continuous injection of electrons and positrons in both HER and LER rings is necessary to keep the average luminosity at a high level. Polarized electrons are required for experiments and must be delivered by the injection system, due to the beam lifetime shorter than the polarization build-up: they will be produced by means of a SLAC-SLC polarized gun. One or two 1 GeV damping rings are used to reduce e+ and e- emittances. Two schemes for positron production are under study, one with electron-positron conversion at low energy (<1 Gev), the second at 6 GeV with a recirculation line to bring the positrons back to the damping ring. Acceleration through the Linac is provided by a S-band RF system made of traveling wave, room temperature accelerating structures. An option to use the C-band technology is also presented