TY - JOUR
AU1 - Zhivlyuk, Yu.
AU2 - Rzhavin, Yu.
AB - LITERATURE CITED i. M.A. Gulyaev and A. V. Eryukhin, Vacuum Measurements [in Russian], Izd-vo Standartov, Moscow (1967). 2. V.N. Gramenitskii, Load-Piston Measurement Devices [in Russian], Izd-vo Standartov, Moscow (1973)o 3. S.N. Afanas'ev, V. V. Suprunyuk, and A. Yu. Stepnov, USSR Inventor's Certificate, No. 1425500; Byull. Izobret., No. 35 (1988). 4. M.P. Orlova, O. F. Pogorelova, and S. A. Ulybin, Low-Temperature Thermometry [in Rus- sian], Energoatomizdat, Moscow (1987). 5. USSR State Standard GOST 8.223-76. GSI: Special Government Reference Standard and National Calibration Scheme for Devices Measuring Absolute Pressure in the Range of 2.7-102 to 4000.102 Pa. Yu. N. Zhivlyuk and Yu. I. Rzhavin UDC 681.7.068.4 Advances in coherent optical fiber coupling devices offer wide possibilities in the design of control and measurement systems based on fiber waveguides. The primary transducers in such systems are optical fiber devices which make it possible to design purely optical data acquisition and transmission systems fully realizing the advantages of fiber optics. The physical conversion principle is based on the fact that the investigated external field affects either the effective refractive index of the fiber or its geometric length. This causes modulation of th~ optical radiation propagated along the fiber by the investigated fluctuations. Of 
TI - Investigation of pressure transducers based on w-fiber waveguides
JF - Measurement Techniques
DO - 10.1007/BF00975259
DA - 2004-12-28
UR - https://www.deepdyve.com/lp/springer-journals/investigation-of-pressure-transducers-based-on-w-fiber-waveguides-mukMYsUMg0
SP - 454
EP - 458
VL - 34
IS - 5
DP - DeepDyve
ER -