The acoustic field in a cylindrical borehole embedded in a horizontall
y layered infinite medium is studied-The modes in each layer are found
to consist of continuous as well as discrete ones, the orthogonality
and completeness of which are proven. The relevant weights associated
with the two kinds of modes are determined by solving a set of integra
l equations deduced from the boundary conditions at the layer interfac
e. This technique is not limited to low frequencies, but applies well
to frequencies prevailing in typical logging environment. Reflection,
transmission and coupling coefficients of different modes are evaluate
d. The numerical results are verified by comparison with the method of
real axis integration (RAI) and the hybrid mehtod proposed by Tsang [
''Transient acoustic waves in a fluid-filled borehole with a horizonta
l bed boundary separating two solid formations'', J. Acoust. Sec. Am.
81, 844-853 (1987)]. The scaled laboratory experiments are carried out
and the corresponding results are presented for comparison with the n
umerical computation.