Title :
GPS time synchronization system for K2K
Author :
Berns, H.G. ; Wilkes, R.J.
Author_Institution :
Dept. of Phys., Washington Univ., Seattle, WA, USA
Abstract :
The K2K (KEK E362) long-baseline neutrino oscillations experiment requires synchronization of clocks with ~100 nsec accuracy at the near and far detector sites (KEK and Super-Kamiokande, respectively), which are separated by 250 km. The Global Positioning System (GPS) provides a means for satisfying this requirement at very low cost. In addition to low-resolution time data (day of year, hour, minute, second), commercial GPS receivers output a 1 pulse per sec (1PPS) signal whose leading edge is synchronized with GPS seconds rollovers to well within the required accuracy. For each beam spill trigger at KEK, and each event trigger at Super-Kamiokande, 50 MHz free-running Local Time Clock (LTC) modules at each site provide fractional-second data with 20 nsec ticks. At each site, two GPS clocks run in parallel, providing hardware backup as well as data quality checks
Keywords :
Cherenkov counters; Global Positioning System; neutrino detection; neutrino oscillations; nuclear electronics; synchronisation; timing circuits; GPS time synchronization system; Global Positioning System; K2K long-baseline neutrino oscillations experiment; KEK E362; Super-Kamiokande; beam spill trigger; data quality checks; event trigger; fractional-second data; free-running Local Time Clock modules; hardware backup; low-resolution time data; Atomic clocks; Costs; Detectors; Global Positioning System; Laboratories; Neutrino sources; Physics; Protons; Satellite broadcasting; Synchronization;
Conference_Titel :
Real Time Conference, 1999. Santa Fe 1999. 11th IEEE NPSS
Conference_Location :
Sante Fe, NM
Print_ISBN :
0-7803-5463-X
DOI :
10.1109/RTCON.1999.842674
