Gas Electron Multiplier (GEM)
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ATTENTION
The use of GEM foils as Radiation Detectors is covered by two patents:
Compteurs ŕ Trous (CAT) (US 5 742 061) owned by CNRS and Gas Electron
Multiplier (GEM) (WO9921211) owned by CERN. Such use requires a license. CERN grants
royalty-free licenses for Research and Development use of GEM foils.
Commercial licenses can be granted on conditions to be agreed with CERN.
More information about GEM licencing can be found at
http://cern.ch/gem. CERN
would appreciate that users of GEMs put the above text on their web site. |
A CERN CORE TECHNOLOGY
The development of the GEM manufacturing process is an excellent
example of the use of a core knowledge that CERN owns. Together with Fabio Sauli
(the inventor of the GEM) and the Technology Transfer division we will pursue
the development and transfer the manufacturing technology to industry.
INTRODUCTION
The gas electron multiplier (GEM) consists of a thin,
metal-clad polymer foil, chemically pierced by a high density of holes. On
application of a difference of potential between the two electrodes,
electrons released by radiation in the gas on one side of the structure
drift into the holes, multiply and transfer to a collection region.
The multiplier can be used as detector on its own, or as a
preamplifier in a multiple structure; in this case, it permits to reach
large overall gains in harsh radiation environment.
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| Electric field in GEM holes |
PRODUCTION
In the late 1990's the GEM manufacturing technology has been developed at
CERN in the printed circuits workshop by A. Gandi and R. De Oliveira. A
metal-clad polymer foil (copper on kapton) is coated on both sides with a
photosensitive layer and exposed to UV light through a mask reproducing the
desired holes' pattern. The metal is chemically removed in the holes, and the
foil is immersed in a solvent for Kapton.
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The first large size GEMs produced in the PMT workshop for HERA-B.
(left to right: Angelo Gandi, Rui De Oliveira and Jean-Claude
Labbé) |
The resulting foil has conductor on both sides, pierced by a high density of
holes (typically 70 µm in diameter at 140 µm pitch). Close to a thousand GEMs
of various shapes and sizes have been built so far, both for the requirements of
HEP experiments (HERA-B, CMS, COMPASS, LHC-B) and for other applications.
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| Close view of a GEM electrode |
STATUS
| 14 March 2003 |
As GEM detectors are becoming such a success, the requests for
production are difficult to follow for us as the DEM labs are set up for
prototype quantities. That is why we are actively looking for an
industrial partner who can fabricate the foils and who can possibly do the
framing as well. |
| 19-25 October 2003 |
Nuclear Science
Symposium Portland. Over 30 (!) oral presentations presented results
of tests and simulations of GEM detectors. |
| 29 October 2003 |
Decision to transfer GEM technology to a member-state company that has
already a licence for microvia technology. First prototypes expected
before the end of the year. |
| 21 September 2006 |
CERN keeps up production of GEMs and has reduced delivery times.
Standard sized GEMs (50x50 and 100x100 mm) are even in stock. |
| 1 June 2007 |
German startup company "CDT CASCADE
Detector Technologies GmbH" founded by former staff of University of
Heidelberg. This company makes fast neutron detectors based on GEM
technology. |
| 18 March 2008 |
On-going innovative research to produce large GEMs (60 cm x 40 cm and
larger).
Progress with development of easy to manufacture spark-protected
resitive GEM technology. |
DOCUMENTATION
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GEM Patents
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CERN Sales of GEM detectors
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Gas detector
developments group - PH-DT2
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A
GEM of a detector! (CERN bulletin article,
french
version)
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A marriage of
pixels and proportional counters, (CERN
Courier July/Agust 2004)
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A GEM of a
detector, (CERN
Courier December 1998 p19).
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Commissioning of the GEM
Detectors in the COMPASS Experiment, Frank Simon, Physik Technische
Universitaet Munich, November 2001
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Development
of a gaseous detector based on Gas Electron Multiplier (GEM) Technology
F.Murtas
(LNF-INFN), Nov.2002
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Development of a GEM-based TPC Readout for Future Collider Experiments,
Steffen G. Kappler, Institut fuer Experimentelle Kernphysik, Universit¨at
Karlsruhe, Dissertation 2004.
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Developments
and the Preliminary Tests of Resistive GEMs Manufactured by a Screen
Printing Technology, G. Agócs, B. Clark, P. Martinego, R Oliveira,
V. Peskov, P. Pietropaolo, P. Picchi, Journal of Instrumentation Volume 3,
February 2008.
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CASCADE a High-Rate
Detector for Neutron Applications in Science and Research, University of
Heidelberg
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Gas
Electron Multiplier (Technology Transfer)
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TS-DEM Patents and Technologies
CONTACTS
- M. Tuuva -
TS-DEM - Tel: +41 22 76 72285 - commercial information for clients outside
CERN
- B. Denis -
CERN Directorate Services Unit,
Technology Transfer -
licensing issues - Tel: +41 22 76 75387
- L. Ropelewski -
section leader Gas Detector Developments Group - PH-DT2 - Tel: 76078
- R. De Oliveira
- section leader TS-DEM-PMT - Tel: 73745, 163931
- technical question on GEM manufacturing
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