RESEARCH and DEVELOPMENT for CBM (at LHE JINR) Yu.V. Zanevsky Laboratory of High Energies JINR,...

RESEARCH and DEVELOPMENT for CBM (at LHE JINR)

Yu.V. Zanevsky Laboratory of High Energies JINR, Dubna

- NEW INFRASTRUCTURE

- FAST GAS DETECTORS

- DIPOLE SUPERCONDUCTING MAGNET

JINR participation on the experimental program at GSI future facility 20-21 Nov., 2003

INFRASTRUCTURE in LHE JINR

We have a present-day infrastructure for the R&D and construction of gas

detectors:

- winding machines

- clean rooms

- measurement devices

- Front End Electronics

- special tables e.t.c.

Our previous infrastructure was successfully used for the HADES project.

A new Detector Lab. wiil be employed firstly for the TRD / ALICE.

http://lhedl.jinr.ru/

NEW DETECTOR LABORATORY at LHE JINR

JINR participation on the experimental program at GSI future facility 20 – 21 Nov., 2003

Total area: ~ 400 sq. m

Clean rooms: ~120 sq. m (class 10.000)

Climate facility :(temperature and humidity control)

NEW WINDING MACHINE, CLEAN ROOM

Winding machineUnder PC control ( ~20 )Max. size: 2 m

Clean room

High Acceptance Di- Electron Spectrometer (HADES)

Main parameters of HADES drift chambers (plane-2)__________________________________________________

• 6 trapezoidal low mass mini drift chambers (modules) were constructed at LHE JINR ( including R&D and Prototyping ) for Plane-2 of the HADES Spectrometer. Each module has an active area ~ 0,5 m2 and contains 6 drift chambers with different angle of winding.

• Gas mixture – He + Isobutan, Cathode and Field wires performed from annealed Al wires. It reduces the radiation length x/Xo per chamber below 5 x 10-4

• Max. drift time ~ 80 ns

• Efficiency ~ 99 % (with high multiplicity)

• Position resolution (track fit for 2 chambers) ~ 39 mkm

HADES PROJECT (JINR Participation)

Hit findingsoftware

Track fitting software

Front End Electronics (Ampl./Discr.)

6 multilayerlow-massDrift ChambersPlane-2

Fast Gas Detectors

Yu. Zanevsky, S. Chernenko, V. Golovatjuk, L. Smykov, V. Zrjuev,(LHE JINR, Dubna)

Scope of the Project:

To develop: • large area (~ 2 x 2 m ² ) • high granularity • low mass • high speed ( ~ 10 5 / cm²s)Gas Detectors

In this project participate also : GSI (Darmstadt), INFN (Frascati),

NC PHEC (Minsk)

University (Muenster)

Micromegas(MICROMEsh GAseous Structure)

Conversion gap: 3mm Gas: Ne+10% C4H10Amplification gap: 100 mkm (1 or 2 stage)

Drift gap – 8 mmTransfer gap – 2 mmInduction gap – 2 mm

Gas Electron Multiplier(GEM)

ЛВЭ ЛВЭ

F.Sauli, Nucl. Instr. Meth. A 461 (2001), 47-54

Electron microscope picture of a GEM foil Electron microscope view of a cross-section through one hole

Cu / KAPTON / Cu - 5/50/5 mkmPitch – 140 mkmHole – 70 mkmCenter – 45 mkm

C. Altunbas et al. Nucl .Instr. Meth.A 490 (2002), 177-203

GAS DETECTOR BASED on 2 GEM MESH

VD = 3560 VV1U = 2150 VV1D = 1800 VV2U = 1050 VV2D = 700 V

Ar - CH4 / 80 – 20

ΔVGEM1 = 350 VΔVGEM2 = 350 V

Test of 2 cascade GEM at LHE JINR

Superconducting Dipole Magnet for CBM

E.Matyushevsky, P.Akishin, Z.Borisovskaya, A.Shabunov (JINR)

M.Turani (GSI)

• BY integral: 1-2 Tm

• Acceptance: 50° (vert.) and 60° (horiz.)

• Gap: ~ 1m

Gap: ~ 1 m

SP coils: 4 half Circles, dia. 1 m, (double pancake)

Current: ~ 3000 A

BY integral (Y=0) ~ 1,12 Tm

Weight: ~76 tons

General view

Color map of the basic dipole magnetic field component in the median plane

A proposed possibleversion of dipole magnet:

- the same current and number of Amper x turns;- the same acceptance;- BY integral (y=0) 2,44 Tm.

9/Nov 2003 23:55:43

Cut of the magnet

10/Nov 2003 00:08:49

CONCLUSIONS

1. The R&D work on the fast gas detectors is in progress at LHE JINR

2. Fast gas detector based on the GEM (2 cascade) is under the testing

3. The work on the simulation of Dipole Superconducting Magnet is in progress

RESEARCH and DEVELOPMENT for CBM (at LHE JINR) Yu.V. Zanevsky Laboratory of High Energies JINR,...

Documents

Quantum Anomalies for Heavy Quarks Heavy Quarks-08 JINR, Dubna, August 20 2008 Oleg Teryaev JINR

23 July 2010FLNR Dubna Summer Students Practice Flerov Laboratory of Nuclear Reactions, JINR, Dubna 2010 JINR, Dubna 2010 Studies with radioactive ion

Kinematical azimuthal asymmetries and Lam-Tung Relation Spin-05, Dubna, September 27 2005 O. Teryaev JINR, Dubna

Technology of Semantic Structuring of the Digital Library Content I. Filozova JINR LIT, Dubna LIT JINR (DUBNA), JULY 18, 2012 V International Conference

A.Olchevski, JINR (Dubna) Test Beam studiesof COMPASS ECAL0 Test Beam studies of COMPASS ECAL0 module prototype with MAPD readout ECAL0 Team, JINR, DUBNA

JINR SCIENTIFIC COUNCIL 106 nd Session, 24 September 2009, Dubna

Zair Sadygov, JINR, Dubna Igor Zheleznykh , INR, Moscow

HEAVY ION COLLIDER FACILITY NICA AT JINR (DUBNA): STATUS

A.N.Skachkova, N.B.Skachkov (JINR, Dubna)

CRIS&OAR for Research Information Management I.Filozova JINR LIT, University “DUBNA” Dubna, Russia SCHOOL ON JINR/CERN GRID AND ADVANCED INFORMATION SYSTEMS

O. Teryaev JINR, Dubna

DUBNA-NANO2010 - BLTP JINR Home Pagetheor.jinr.ru/~nano10/abstracts/Dubna-Nano2010_abstracts.pdf · DUBNA-NANO2010 Book of abstracts July 5-10, 2010 Dubna, Russia Dubna 2010 . УДК

Correlation Femtoscopy R. Lednický, JINR Dubna & IP ASCR Prague

Technology of Semantic Structuring of the Digital Library Content I.Filozova JINR, Dubna JINR (DUBNA), MAY 18, 2012 III JINR/CERN School of Information

NICA – Round Table IV JINR, Dubna , September 9-12, 2009

S. Sidorchuk (JINR, Dubna) Dubna Radioacive Ion Beams DRIBsIII: STATUS and PROSPECTS S. Sidorchuk (JINR, Dubna) 9-16 May 2013, Varna, Bulgaria 1

SPIN PHYSICS AT NIC A A.P. Nagaytsev , JINR , Dubna

Theory - round table (exclusive DY, GPDs) Oleg Teryaev JINR, Dubna

Plamen Fiziev BLTF, JINR, Dubna Parallel computations using Maple 17

On the Status of VHM Physics J.Manjavidze & A.Sissakian JINR, Dubna