TY - JOUR
AU - Kurochkin, V.
AB - A. A. Glushchenko, A. Ya. Laptienko, UDC 621.317.444 N. N. Karagai, and V. I. Kurohhkin In developing the teslameter, we took into account the characteristics of superconduct- ing solenoids and measurements in cryomagnetic systems and the requirements for a wide range of measurable fields and a mimimum distance between the NMR transducer and the autodyne os- cillator. Therefore, modular construction was used: The autodyne is separated from the con- trol unit in a remote unit and is connected to the NMR transducer by coaxial hardline with an SR-50-164 F connector. The remote unit is connected to the control unit by a 3-m flexible cable with RS-32 connectors at each end. The use of RS-32 connectors for the rf cable is fully acceptable at frequencies to 200 MHz. The coaxial line can also be disconnected from the NMR transducer, which makes it more convenient to change the autodynes, NMR transducers, and coaxial lines. The remote unit is a cylinder 28 mm in diameter and 150 mm high, which, when necessary, is placed in the warm space of the cryostat. The copper cylindrical housing of the unit can be removed to repair or replace the tuning components of the autodyne oscillatory 
TI - Autodyne NMR teslameter
JF - Measurement Techniques
DO - 10.1007/BF00838770
DA - 2004-12-01
UR - https://www.deepdyve.com/lp/springer-journals/autodyne-nmr-teslameter-RXraZ7Nj5W
SP - 557
EP - 558
VL - 27
IS - 6
DP - DeepDyve
ER -