The search for frame dragging around massive rotating objects such as the Earth is an important test for general relativity and is actively pursued with the LAGEOS and Gravity Probe‐B satellites. Within the classical framework, frame dragging is independent of the state (normal or coherent) of the test mass. This was recently challenged by proposing that a large frame‐dragging field could be responsible for a reported anomaly of the Cooper‐pair mass found in Niobium superconductors. In 2003, a test program was initiated at the Austrian Research Centers to investigate this conjecture using sensitive accelerometers and fiber optic gyroscopes in the close vicinity of fast spinning rings at cryogenic temperatures. This paper will discuss the measurements recently obtained with the fiber optic gyroscopes. They show, that the angular velocity applied to the superconductor can indeed be seen on the sensors below a critical temperature. The signal amplitude is about 8 orders of magnitude below the values applied to the ring for the case of clockwise rotation only. Counter‐clockwise rotation responses were at least an order of magnitude weaker. The critical temperature for Al and Nb was 16 K and for YBCO around 32 K, which does not coincide with the material's superconducting temperature. The origin and the signature of the observed signals so far is not clear. Our measurements and analysis suggest that the signal cannot be explained by mechanical influence or by carefully monitored magnetic fields surrounding the sensors.
Investigation of Frame‐Dragging‐Like Signals from Spinning Superconductors using Laser Gyroscopes
SPACE TECHNOLOGY AND APPLICATIONS INTERNATIONAL FORUM‐STAIF 2008: 12th Conference on Thermophysics Applications in Microgravity; 1st Symposium on Space Resource Utilization; 25th Symposium on Space Nuclear Power and Propulsion; 6th Conference on Human/Robotic Technology and the Vision for Space Exploration; 6th Symposium on Space Colonization; 5th Symposium on New Frontiers and Future Concept ; 2008 ; Albuquerque (New Mexico)
AIP Conference Proceedings ; 969 , 1 ; 1080-1090
21.01.2008
11 pages
Aufsatz (Konferenz)
Elektronische Ressource
Englisch