9,701 research outputs found
Fibre-optic delivery of time and frequency to VLBI station
The quality of Very Long Baseline Interferometry (VLBI) radio observations
predominantly relies on precise and ultra-stable time and frequency (T&F)
standards, usually hydrogen masers (HM), maintained locally at each VLBI
station. Here, we present an operational solution in which the VLBI
observations are routinely carried out without use of a local HM, but using
remote synchronization via a stabilized, long-distance fibre-optic link. The
T&F reference signals, traceable to international atomic timescale (TAI), are
delivered to the VLBI station from a dedicated timekeeping laboratory.
Moreover, we describe a proof-of-concept experiment where the VLBI station is
synchronized to a remote strontium optical lattice clock during the
observation.Comment: 8 pages, 8 figures, matches the version published in A&A, section
Astronomical instrumentatio
Clock synchronization by remote detection of correlated photon pairs
We present an algorithm to detect the time and frequency difference of
independent clocks based on observation of time-correlated photon pairs. This
enables remote coincidence identification in entanglement-based quantum key
distribution schemes without dedicated coincidence hardware, pulsed sources
with a timing structure or very stable reference clocks. We discuss the method
for typical operating conditions, and show that the requirement in reference
clock accuracy can be relaxed by about 5 orders of magnitude in comparison with
previous schemes.Comment: 14 pages, 6 figure
Re-verification of a Lip Synchronization Algorithm using robust reachability
The timed automata formalism is an important model for specifying and analysing real-time systems. Robustness is the correctness of the model in the presence of small drifts on clocks or imprecision in testing guards. A symbolic algorithm for the analysis of the robustness of timed automata has been implemented. In this paper we re-analyse an industrial case lip synchronization protocol using the new robust reachability algorithm.This lip synchronization protocol is an interesting case because timing aspect are crucial for the correctness of the protocol. Several versions of the model are considered, with an ideal video stream, with anchored jitter, and with non-anchored jitter
Re-verification of a Lip Synchronization Protocol using Robust Reachability
The timed automata formalism is an important model for specifying and
analysing real-time systems. Robustness is the correctness of the model in the
presence of small drifts on clocks or imprecision in testing guards. A symbolic
algorithm for the analysis of the robustness of timed automata has been
implemented. In this paper, we re-analyse an industrial case lip
synchronization protocol using the new robust reachability algorithm. This lip
synchronization protocol is an interesting case because timing aspects are
crucial for the correctness of the protocol. Several versions of the model are
considered: with an ideal video stream, with anchored jitter, and with
non-anchored jitter
Synchronization and Characterization of an Ultra-Short Laser for Photoemission and Electron-Beam Diagnostics Studies at a Radio Frequency Photoinjector
A commercially-available titanium-sapphire laser system has recently been
installed at the Fermilab A0 photoinjector laboratory in support of
photoemission and electron beam diagnostics studies. The laser system is
synchronized to both the 1.3-GHz master oscillator and a 1-Hz signal use to
trigger the radiofrequency system and instrumentation acquisition. The
synchronization scheme and performance are detailed. Long-term temporal and
intensity drifts are identified and actively suppressed to within 1 ps and
1.5%, respectively. Measurement and optimization of the laser's temporal
profile are accomplished using frequency-resolved optical gating.Comment: 16 pages, 17 figures, Preprint submitted to Elsevie
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