A polarimetric approach is presented to extract information of reflected wa
ves that is masked by the transmitter-receiver directly coupled wave in a s
ingle-hole borehole radar measurement. Radar polarimetry theory is expanded
to an omnidirectional radar system with electric and magnetic dipoles arra
nged on the same axis. First, we formulate the transfer functions directly
coupled between the antennas for cross-hole and single-hole arrangements in
copolarized channels. We found that the theoretical scattering matrices of
the direct-wave coupling is identical to the scattering matrix from a dihe
dral corner reflector. Second, ve also consider signals in polarimetric cha
nnel of a wave reflected from a plane scatter in single-hole arrangements.
As advanced reflection borehole radar measurement, we demonstrate a techniq
ue for both reduction of the directly coupled wave and enhancement of the r
eflected waves from a plane fracture with measured data in dipole-dipole an
d slot-slot antenna combinations, For quantitative determination of the sca
ttering matrix, we use a technique to compensate the antenna transfer funct
ions by the time derivative of the directly coupled signals in single-hole
measurement. Also, we propose a technique to reduce the directly coupled co
mponent by adding vertical (VV) and horizontal (HH) signals and we showed t
hat the directly coupled wave is effectively reduced and reflected waves ar
e enhanced with experimental data. Finally, we show that this technique is
more useful for near-range reflector detection than a conventional subtract
ion technique with moving average of the measured waveforms.