Title: Reconstruction of the altitude of the shower maximum.
1D.V.Skobeltsyn INP Moscow State University
TUS/KLYPVE Collaboration
V. Alexandrov, D. Bugrov, G. Garipov,
N.Kalmykov,B.Khrenov, M. Panasyuk, S.Sharakin, A.
Silaev, I. Yashin
JINR, Dubna, Russia
V. Grebenyuk,M. Finger, A. Zhuchkova, D. Naumov,
Nguen Man Sat, A. Olshevsky, B. Sabirov, L.
Tkatchev, N. Zaikin
UHECRs measurements from Space via detection of
fluorescent and Cherenkov light produced by EAS
Energia Korolev (Rocket Space Corporation)
Goal
O. Saprykin, V. Syromyatnikov
Luch Syzran SCTB, Russia
E. Bitkin, S. Eremin, A. Matyushkin, F. Urmantsev
1.5 m diameter Fresnel Mirror Background
measurement dozens events per year with Egt1020 eV
TUS
Mexico University, Mexico
A. Cordero, O. Martinez, E. Morena, C.
Robledo,H. Salazar, L. Villaseeor, A. Zepeda
Ewha Womans University Seoul, South Korea
TUS2
Double TUS
I. Park
3.5 m diameter Fresnel Mirror 103 events per
year 102 events with Egt1020 eV
NIO KOMPAS, Czech Republic
KLYPVE
M. Shonsky
Technical University, Prague, Czech Republic
J. Zicha
2Ultra High Energy Cosmic Rays (UHECRs)
Modulated by solar activity
GROUND BASED DETECTOR DATA ON UHECR
1 particle per m2second
1st knee
1 particle per m2year
2nd knee
Ankle
1 particle per km2year
Energy, eV
Energy, eV
Energy, eV
aqqqq
- What is their origin?
- ?Top-down? Bottom-up? Source?
- What is the nature of UHECRs?
- ?p,Fe,?,?
- What is their spectrum?
- ?consistent with GZK
- (p?2.7 ? p ?0)?
3Concept of TUS/TUS2 space free flyer
16x16 PMTs
Fresnel mirror 10 rings
Focal distance is 1.5 m Field of View is 7.3o
4mm
Fresnel Mirror RD
Measured vs theory
mold production in JINR/Dubna Space qualified
carbon-plastic Fresnel mirror to be produced At
Luch (Syzran)
Mirror mold section
Measured - theory
Ring number
The light spread radius on the focal plane
90
80
70
5Simulation
- SLAST package
- 3D Geometry
- Various Atmosphere profiles
- GIL parameterization of CORSIKA
- Hillas parameterization for the energy
distribution - First interaction of nuclei or neutrino from
cross-section - Fluorescence as a function of altitude in the
atmosphere and the shower age - Cherenkov light simulation
- LOWTRAN7.1 atmosphere response
Events per year
KLYPVE
TUS
- Electronics Simulation
- Analog Digital
- Multi-Level trigger system with two modes
vertical horizontal showers
6TUS relative resolution of Hmax as a function of
zenith angle for
Reconstruction
Golden Events
- Reconstruction (under way)
- Arrival direction
- Hmax and Xmax for
- Golden events
- Fluorescent events
- Energy
Cherenkov echo gives us a reference point to
reconstruct Hmax for golden events. Temporal
profile of (quasi) horizontal showers is
sensitive to Hmax. This makes possible to
reconstruct Hmax (and Xmax) for events
without Cherenkov echo. Both methods are
complementary to each other.
Fluorescent Events
7Conclusions
TUS will measure in one year
- The real background ? need for all space based
experiments - dozens of events above 1020 eV ? more than the
world current statistics (with overall sky
coverage)
TUS as a space based experiment will
- Test the approach preparing for the next
generation of experiments EUSO, KLYPVE,OWL and
OTHERS!