An advantage of asymmetric e{sup +}{up_arrow}e{sup -}{up_arrow} colliders with polarized beams in verification of the Minkowskian geometry in the interior of hadrons

Possible deviations from the Minkowskian geometry inside hadrons are now widely discussed in theory. Some phenomena in astrophysics and hadron physics are regarded as indications to these deviations. In the high energy hadron physics the deviations can be discovered through the anomalous behavior of the meanlife of unstable particles with energy. There are two known experiments (Aronson, and Grossman) at Fermilab in which K{sub S}{sup 0} mean lifetime was measured in flight at various energies. Both of them have sizeable uncertainties in measuring of K{sub S}{sup 0} energies. In this report the author discusses a new idea to use asymmetric polarized e{sup +}, e{sup {minus}} colliding beams with not-equal energies to form a moving hadron. The polarization of the initial beams allows to measure their energies with very high precision. This will decrease the uncertainties in the energy measurements by a factor of ten, and theoretical fits of {tau}(E) become more definite.