. "laser time transfer; optical time transfer; high reprate; photon counting"@en . "Photon counting detector for high repetition rate optical time transfer providing extremely high data yield"@en . "I, S" . . "Optical Engineering" . . . "10.1117/1.OE.53.8.081903" . . . "Photon counting detector for high repetition rate optical time transfer providing extremely high data yield" . . "000341195300005" . "[AB71F35872E6]" . "53" . "Bla\u017Eej, Josef" . "8" . . . . "Proch\u00E1zka, Ivan" . "Photon counting detector for high repetition rate optical time transfer providing extremely high data yield" . "3"^^ . "0091-3286" . . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . "3"^^ . "21340" . "A photon counting detector that has been optimized for optical time transfer experiments is presented. The newly developed detector\u2019s operational scheme enables us to achieve very high useful data yields exceeding 50 % while still maintaining pure single photon operation and wide dynamical range. The photon counting detector was designed and approved for operation also in a space environment. Its construction is extremely rugged and compact. The long-term detection delay stability in the sense of time deviation is excellent\u2014typically 200 fs for averaging times of hours. The change of the detection delay with temperature is typically below 260\u2009\u2009fs/K. Both the detector and its operational scheme might be employed in optical time transfer experiments on single photon signal level. Another attractive application is foreseen in future space missions, where a photon counting device providing subpicosecond timing stability and radiation tolerance is required." . "A photon counting detector that has been optimized for optical time transfer experiments is presented. The newly developed detector\u2019s operational scheme enables us to achieve very high useful data yields exceeding 50 % while still maintaining pure single photon operation and wide dynamical range. The photon counting detector was designed and approved for operation also in a space environment. Its construction is extremely rugged and compact. The long-term detection delay stability in the sense of time deviation is excellent\u2014typically 200 fs for averaging times of hours. The change of the detection delay with temperature is typically below 260\u2009\u2009fs/K. Both the detector and its operational scheme might be employed in optical time transfer experiments on single photon signal level. Another attractive application is foreseen in future space missions, where a photon counting device providing subpicosecond timing stability and radiation tolerance is required."@en . . "36501" . . "3"^^ . . . . . . "Kodet, Jan" . "RIV/68407700:21340/14:00217409!RIV15-MSM-21340___" . "Photon counting detector for high repetition rate optical time transfer providing extremely high data yield"@en . "RIV/68407700:21340/14:00217409" .