Difference between revisions of "Data Rates"
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+ | ==<span style="background:yellow">This page has moved to the [https://wiki.dunescience.org/wiki/Data_Rates DUNE Wiki]</span>== | ||
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= Disclaimer = | = Disclaimer = | ||
− | '''This page is | + | '''This page is under construction.''' |
= Overview = | = Overview = | ||
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== References == | == References == | ||
+ | === SNB === | ||
* {{DocDB|6977|DocDB 6977}} - Software for low-energy signals | * {{DocDB|6977|DocDB 6977}} - Software for low-energy signals | ||
* {{DocDB|8481|DocDB 8481}} - Summary of SNB Working Group Progress (February 2014) | * {{DocDB|8481|DocDB 8481}} - Summary of SNB Working Group Progress (February 2014) | ||
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* approximately 100 events per kiloton, spread over ~30 seconds, ~½ in first second | * approximately 100 events per kiloton, spread over ~30 seconds, ~½ in first second | ||
* all flavors, few tens of MeV | * all flavors, few tens of MeV | ||
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+ | === Other material === | ||
+ | * [http://arxiv.org/pdf/1403.3140%20pdf Measurement of the neutrino-oxygen neutral-current interaction cross section by observing nuclear deexcitation] | ||
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+ | = Proton Decay = | ||
+ | == References == | ||
+ | * [http://arxiv.org/abs/hep-ph/0407297 Very massive underground detectors for proton decay searches] | ||
+ | * [http://arxiv.org/abs/hep-ph/0701101 Nucleon Decay Searches with large Liquid Argon TPC Detectors at Shallow Depths: atmospheric neutrinos and cosmogenic backgrounds] | ||
+ | * [https://indico.fnal.gov/getFile.py/access?contribId=3&resId=3&materialId=slides&confId=9209 PDK at LBNF Meeting in Jan'15] | ||
= Solar = | = Solar = |
Latest revision as of 19:57, 18 December 2017
Contents
This page has moved to the DUNE Wiki
Disclaimer
This page is under construction.
Overview
According to the physics goals of the experiment, we need to consider the following main sources of signal:
- The "beam neutrino" signal
- The Supernova Burst (SNB) signal
- Proton Decay
- Solar neutrinos
All these signals have distinct energy scales, topologies and other characteristics. In terms of buffering and processing data in real or near time, they pose different requirements.
Beam Neutrinos
Because of the energy scale (~GeV range) neutrino interactions will be characterized by TPC signals well above radiological background. Zero-suppression will lead to significant reduction of data volume and rates (the detector will appear "empty" for the most part).
SNB
Reactions
νe+40Ar ⇒ e-+40K*
ν e+40Ar ⇒ e++40Cl*
νx+40Ar ⇒ νx+40Ar*
νe,x+e- ⇒ νe,x+e-
References
SNB
- DocDB 6977 - Software for low-energy signals
- DocDB 8481 - Summary of SNB Working Group Progress (February 2014)
Some reference curves from DocDB 6977:
In a nutshell:
- approximately 100 events per kiloton, spread over ~30 seconds, ~½ in first second
- all flavors, few tens of MeV
Other material
Proton Decay
References
- Very massive underground detectors for proton decay searches
- Nucleon Decay Searches with large Liquid Argon TPC Detectors at Shallow Depths: atmospheric neutrinos and cosmogenic backgrounds
- PDK at LBNF Meeting in Jan'15
Solar
References
- DocDB 6212 - M.Smy's slides from 2012 (LBNE solar studies potential)
Backgrounds
Background Sources
References
- DocDB 4482 - Craig Thorn's summary of Ar properties
- Measurement of the specific activity of Ar-39 in natural argon
Important radiologicals
- 39Ar 1.01 Bq/kg β- End-point: 0.565MeV
- 85Kr 0.1-0.3 Bq/kg β- End-point: 0.687MeV
Plots
Muon and Neutron Backgrounds (40Cl)
Summary Plots
Caveat - in the plots below the neutron data reflect the number of neutrons, not tracks, hits or counts created by neutrons. TBD!