102998
Conferences
false
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Fermi National Accelerator Lab. (US)
marcel.demarteau@cern.ch
7308
Technology and Instrumentation in Particle Physics 2011
TIPP 2011
TIPP11
TIPP 2011 - 2nd International Conference on Technology and Instrumentation in Particle Physics
<p>
The Technology and Instrumentation in Particle Physics 2011 (TIPP 2011) conference is the second in the new series of international conferences in the field of particle physics sponsored by IUPAP. The program focuses on all areas of detector development and instrumentation in particle physics, astro-particle physics and closely related fields.</p>
Here is a rough general guideline: for the existing experiments/projects (running, under construction, or in the plan, or large R&D projects), we are soliciting two types of talks. One type is the overview talk (~25+5 min) for each experiment/project, the other type is more elaborate/focused/short talks on sub-detectors (15+5 mins). For individual smaller scale (R&D) work, one abstract/talk should be good enough (length somewhat flexible, typically short). <br />
<br />
The areas covered by the parallel tracks are categorized as follows:<br />
<div style="border-top-width: 0px; border-right-width: 0px; border-bottom-width: 0px; border-left-width: 0px; border-style: initial; border-color: initial; margin-top: 0px; margin-right: 0px; margin-bottom: 0px; margin-left: 0px; ">
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<div>
Experimental detector systems</div>
Gaseous detectors<br />
Semiconductor detectors<br />
Calorimeters<br />
Particle identification<br />
Photon detectors<br />
Dark Matter Detectors<br />
Neutrino Detectors<br />
Astrophysics and space instrumentation<br />
Front-end electronics<br />
Trigger and data acquisition systems<br />
Machine Detector Interface and beam instrumentation<br />
Instrumentation for medical, biological and materials research<br />
<br />
Since this is a science driven cross-disciplinary conference on Technology and Instrumentation, the overview talks from each experiment should not be the usual "beauty contest" type of presentations shown at typical physics or hardware conferences. The overview talk for a given experiment should start from science motivations, then focus on the challenges in technology and instrumentation, and how the experiment/project overcame the challenges, the experience of designing and building such systems and lessons learned. What would especially be good to hear is not only what the challenges<font class="Apple-style-span" color="#444444"> </font>were, but what challenges they are still struggling to overcome! This conference is not for polished talks about all that is beautiful and works well. We'd like to hear what the limitations are of the current experiments and how it limits the science and focus on ideas on how to break these barriers. The overview talks could reference/advertise the shorter (more focused) talks from the same experiment. One could think of the overview talks as "mini-plenary" talks (one per experiment/project). In some cases, especially large sub-detectors, it is also possible to consider an overview talk (with a few abstracts on the details). <br />
<br />
</div>
</div>
False
Chicago
301 East Water Street Chicago, IL 60611
Sheraton Hotel
2011-06-08T08:00:00
2011-06-14T19:15:00
2010-08-01T09:11:00
2012-03-01T11:04:01
US/Central
Dr.
ANL
demarteau@anl.gov
Dr.
Fermilab
thliu@fnal.gov
204
false
[["slides", "FirstConvenersMeeting"], ["minutes", "Minutes"], ["notes", "Notes"], ["paper", "Paper"], ["poster", "Poster"], ["0", "SecondConvenersMeeting"], ["summary", "Summary"]]
0
Oral Presentation
R&D of scCVD diamond Beam Loss Monitors for the LHC at ultra-cold temperatures
Mr.
CERN
hendrik.jansen@cern.ch
Mr.
CERN
hendrik.jansen@cern.ch
Dr.
CERN
heinz.pernegger@cern.ch
Prof.
University of Bonn
wermes@uni-bonn.de
Dr.
Ioffe Physical Technical Institute
vladimir.eremin@cern.ch
Sheraton Hotel
Huron
2011-06-10T14:30:00
2011-06-10T14:50:00
00:20
A Beam Loss Monitor for the LHC provides the most accurate results if it is placed as close to the beam pipe as possible, hence within the cold mass of the magnets. For the new series of triplet magnets, the Beam Instrumentation Group seeks a detector concept that provides full functionality at ultra-cold temperatures (1.9 K). A fast response time, excellent radiation hardness, long durability and reliability, good signal to noise ratio, and a broad dynamic range to cope with a losses differing by orders of magnitude are all critical properties. Obvious candidates for the detector material include single-crystal Chemical-Vapour-Deposited (scCVD) diamond and silicon.
A set-up for Transient Current Technique (TCT) measurements for CVD diamonds at ultra-cold temperatures has been put in place in co-operation with RD39 and the CryoLab at CERN. The set-up provides a good vacuum. A He-Gas cooling device allows for temperatures down to 67 K. Am-241 and Ru-106 sources provide ionizing radiation. Broad-band read-out electronics and a current-sensitive amplifier enable measurement of the transient current.
The presented results are crucial for the future operation of diamonds at cryogenic temperatures. We will present results of measurements of the temperature dependence of fundamental diamond quantities such as carrier drift mobility and velocity, total charge yield, lifetime and detrapping time constants, and trapping energy levels. Furthermore, the difference between MIP-signals and α-signals is shown and important results for possible detector operations are derived. A model capable of explaining the data – the plasma effect with associated trapping – will be presented for the first time for scCVD diamonds. Additionally, pulse shape simulations will show the reliability of the model.
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2013-05-23
2013-05-24