In this paper, we describe a principle of the atomic frequency standard and clock system in VLBI(Very Long Baseline Interferometry). The hydrogen maser is a usual VLBI standard. During VLBI observations, signals emitted by distant sources of radio frequency energy(quasars) are received and recorded at several antennas. At each antenna(VLBI station), a very stable frequency standard(hydrogen maser) provides a reference signal which enables time-tagging to the quasar signals as they are being recorded on magnetic tapes or hard-disk modules. For each VLBl experiment, correlation of the time-tagged recorded information between the participating antennas is used to yield the arrival time differences of any specific quasar radio wave between the antennas. These time differences are used to calculate the relative antennas to each other. In this paper, we also introduce the KVN(Korean VLBI Network) atomic frequency standard and clock system.

• 오세진(한국천문연구원) | SE-JIN OH (Korea Astronomy Observatory)
• 정현수(한국천문연구원) | HYUN-SOO CHUNG (Korea Astronomy Observatory)
• 노덕규(한국천문연구원) | DUK-GYOO ROH (Korea Astronomy Observatory)
• 김광동(한국천문연구원) | KWANG-DONG KIM (Korea Astronomy Observatory)