1. ABOUT THE DATASET -------------------- Title: Creators: Adam Walton, Ben Varcoe Organisation: University of Leeds Rights-holder: Adam Walton Publication Year: 2022 Description: Contained are In Phase and Quadrature measurements obtainted in an atomic clock synchronisation experiment in which the rate of change of errors in phase are used to calculate the difference in frequency between a primary and secondary clock. Contained are the results of two attempts of the experiment, once using a 3 GHz, 2000 second broadcast, and once with a 70 MHZ, 600 second broadcast. For each experiment, 2 files are included, which are lists of the measurements obtained by Alice and Bob over the broadcast period. Cite as: Adam Walton, Ben Varcoe (2022): Microwave Atomic Clock Synchronisation Dataset. [Dataset]. https://doi.org/10.5518/1193 Related publication: Walton, Adam and Varcoe, Ben: A novel method of synchronising two atomic clocks (2022). In preparation. Contact: Adam Walton: pyaw@leeds.ac.uk 2. TERMS OF USE --------------- This dataset is licensed under a Creative Commons Attribution 4.0 International Licence: https://creativecommons.org/licenses/by/4.0/.] 3. PROJECT AND FUNDING INFORMATION ---------------------------------- Title: UK Quantum Technology Hub for Quantum Communications Technologies, Northern Triangle Initiative Connecting Capability Fund Dates: 12/2014 - 11/2019 Funding organisation: EPSRC Grant no.: EP/M013472 4. CONTENTS ----------- File listing 3GHzAlice.txt 3GHzBob.txt 70MHzAlice.txt 70MHzBob.txt Contained are sets of In Phase and Quadrature measurements, recorded as complex values. Phases are calculated from this data in order to plot Figures on the associated paper. 3GHzAlice and 3GHzBob list Alice and Bob's measurements for a 2000 second, 3GHz broadcast, while 70MHzAlice and 70MHzBob list their respective measurements for a 70 MHz, 600 second broadcast. These measurements were performed at a sample rate of 25000 Hz. 5. METHODS ---------- After preparation, the details of the method used to produce this data set will be available in the associated paper: A novel method of synchronising two atomic clocks (2022).