A megathrust earthquake of magnitude 9.0 occurred near the east coast of Honshu (Tohoku area), Japan on 11 March 2011, 05:46:23 UT, producing a strong vertical earth surface motion and inducing devastating tsunamis. The vertical shock created mechanical disturbance (acoustic gravity waves, AGWs) in the neutral atmosphere, which propagated into the ionosphere and interacted with the ionized gas (hereafter, seismo- traveling ionospheric disturbance; STID). A network of HF Doppler Sounding System in Taiwan and Japan are used to study the STID after the Tohoku earthquake. Results show that the clear STIDs consisting of a package of short-period and long-period Doppler shifts are excited by Rayleigh waves and tsunami waves with a vertical speed of 666m/s; horizontal speed of 2.76 km/s and 214 m/s, respectively. Hilbert-Huang Transform (HHT) is applied to analysis the oscillation signals of ionosphere of HF Doppler and seismometer triggered by Rayleigh waves, the characteristic periods of seismic waves are around 15-45 and 180-270 seconds; the characteristic periods of tsunami waves are 20-60 minutes in the ionosphere. Due to the oblique propagate of gravity wave of tsunami, the arrival time of tsunami wave in the ionosphere approximately one hour ahead of the tsunami in the ocean. Finally, searching the epicenter and the origin of tsunami with the circle method, beam-forming and ray-tracing technique confirms that the observed STIDs are induced by the Rayleigh wave and tsunami waves of the Tohoku earthquake.