I. Volobouev
Lawrence Berkeley National Laboratory
Network
Latest external collaboration on country level. Dive into details by clicking on the dots.
Publication
Featured researches published by I. Volobouev.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2000
A. Affolder; P. Azzi-Bacchetta; N. Bacchetta; G. J. Barker; A. Barbaro-Galtieri; A. Basti; F. Bedeschi; D. Bisello; S. R. Blusk; W. Caskey; G. Chiarelli; A. Connolly; R. Demina; R. Ely; R. Field; M. Garcia-Sciveres; K. Giolo; David Goldstein; J. Goldstein; G. Grim; M. Guerzoni; R. M. Haas; C. Haber; K. Hara; F. Hartmann; A. Heiss; C. Hill; M. Hrycyk; J. Incandela; Y. Kato
Abstract The Intermediate Silicon Layers (ISL) detector is currently being built as part of the CDF II detector upgrade project. The ISL detector will significantly improve tracking in the central region and, together with the Silicon Vertex detector, provide stand-alone 3D track information in the forward/backward regions. In this article, we present the quality of the production sensors manufactured by Hamamatsu Photonics, which account for roughly half of the silicon sensors used in the ISL detector.
Nuovo Cimento Della Societa Italiana Di Fisica A-nuclei Particles and Fields | 1999
A. Affolder; P. Azzi-Bacchetta; N. Bacchetta; A. Barbaro-Galtieri; G. J. Barker; A. Basti; F. Bedeschi; D. Bisello; S. R. Blusk; W. C askey; G. Chiarelli; A. C onnolly; R. Demina; R. Ely; R. D. Field; M. Garcia-Sciveres; K. Giolo; David Goldstein; J. Goldstein; G. Grim; M. Guerzoni; R. M. Haas; C. Haber; K. Hara; F. Hartmann; A. Heiss; C. Hill; M. Hrycyk; J. Incandela; Y. Kato
The Intermediate Silicon Layers detector (ISL) was proposed as a part of the upgraded CDF detector at the RUN-II of the Tevatron pp Collider at Fermilab, scheduled to start in year 2000. The ISL is a large-radius (20–30 cm) silicon tracker with a total active area of about 3.5 m2. Locatedin the region between the Silicon Vertex Detector (SVX II) andthe Central Outer Tracker, the ISL will allow tracking in the forwardregion andsignificantly improve it in the central area. Together with the SVX II the ISL forms a standalone, 3D silicon tracker. The challenge is to build a low-cost device which provides precise 3D tracking in a = 2 m long area with a minimal amount of material for the supporting structure. The conceptual design and the status of the project are reviewed.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2003
A. Affolder; M. Garcia-Sciveres; J. Goldstein; C. S. Hill; D. Stuart; I. Volobouev
The Run IIa CDF Silicon Upgrade has recently finished installation. The detector uses revision D of the SVX3 readout IC. This final revision incorporated new features in order to improve the potential of dead-timeless operation. This paper describes measurements of dead-timeless effects on silicon strip readout on the test bench. This paper also describes tests of the dynamic pedestal subtraction circuitry, which is shown to improve greatly the dead-timeless performance of the silicon systems.
Collaboration
Dive into the I. Volobouev's collaboration.
