Novel InP/GaAs1-ySb,/InP double-heterojunction bipolar transistors (HBTs) with a GaAs spacer between the [RP emitter and GaAs1-ySby base layer were grown by the metalorganic chemical vapor deposition method in order to simplify the switching sequence for forming a high quality InP-emitter/GaAs1-ySby base interface. After removal of the InP emitter, the top surface of the GaAs spacer exhibits smooth step-flow-like morphology with root-mean-square roughness of 0.17-0.36 nm, whereas the morphology of the GaAs1-ySby, base of the sample without the GaAs spacer is bumpy. Secondary ion mass spectroscopy reveals that the spacer suppresses the incorporation of excess Sb into the InP emitter around the emitter base junction. The dependence of the current gain on the thickness of the GaAs spacer is investigated and, when the GaAs spacer is 2 nm, the highest current gain is obtained. Therefore, we employ the spacer to scaled down HBTs with a 0.25-mu m-wide emitter. The scaled down HBTs show high current gain of over 90 at collector current density J(c) of 10 mA/mu m(2) even though the space between emitter and base electrodes is just 0.15 mu m. We obtain peak current gain cut-off frequency of 388 GHz and peak maximum oscillation frequency of 290 GHz at J(c)=10 mA/mu m(2). This result suggests that the presence of the GaAs spacer does not impose any penalty on the characteristics at high J(c). The insertion of the GaAs spacer is a good way to obtain a high quality E-B interface with a simple precursor supply sequence and thereby HBTs with both high -current gain and reasonably high RF performance. (C), 2014 Elsevier B.V. All rights reserved,