Harasim, A.; Ludwiger, I. v.; 
Kroy, W.; Auerbach, H. Th.; 

Laboratory Experiment for Testing 
the Gravi-Magnetic Hypothesis 
with Squid-Magnetometers 

 

 

 

SQUID '85 – Superconducting Quantum Interference Devices and their Applications  
Walter de Gruyter & Co.; Berlin/ New York  1985
S. 1183 – 1189

Several planets and stellar objects show the same relation between angular moment of a rotating mass and its magnetic field (Backett's relation 1947 and Heim's differencial equation 1984). 
Basing on this the autors suggest an experimental setup to proove this theory.

By means of a Squid magnetometer (resolving down to 10-13 Tesla) such a field might be measurable while rotating a mass of a density of about 5000 kg/ m3 with more than 300 cps inside a vacuum chamber that is magnetically shielded.
(Please mind that these are about 18.000 circles per minute! The suggested mass density is cooresponding to the earth's mass density.)

In this short article an illustration is shown how this setup might look like.
(OP, 2000)

Data

Harasim, A.; Ludwiger, I. v.; Kroy, W.; Auerbach, H. Th.
Laboratory Experiment for Testing the Gravi-Magnetic Hypothesis with Squid-Magnetometers
SQUID '85 – Superconducting Quantum Interference Devices and their Applications;  H. D. Hahlbohm and H. Lübbig editors; Walter de Gruyter & Co.; Berlin/ New York; 1985; S. 1183 – 1189, english
(7 pages, 4 illustrations)

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© Olaf Posdzech, 1998