Abstract: Provided is an artificial leather substrate including: an entangled fiber body; a filler and a non-volatile oil in liquid form added into the entangled fiber body by impregnation; and preferably, an elastic polymer. Preferably, the content of the non-volatile oil is 0.5 to 10 mass % relative to the entangled fiber body. Further preferably, the artificial leather substrate further includes a smoothing layer for smoothing the substrate surface, the smoothing layer being a layer including a second elastic polymer and a second filler and having a thickness of 10 to 100 ?m.

Abstract: The growth rate of a compound semiconductor thin film is freely enhanced or suppressed by establishing a proper temperature of a substrate 10, and by irradiating by an MOMBE technique, portions corresponding to a desired pattern on the substrate 10 with laser rays having an energy lower than that of photon which can directly decompose an organometal during film growth. A compound semiconductor thin film having a fine pattern with complicated unevenness can be formed on the substrate 10. The relative positions of the source 11 of laser rays, the optical systems 12 and 31 for irradiating the substrate with the laser rays, and the substrate 10 in the vacuum chamber 1 are maintained constant by mounting the body 1 of the MOMBE system, the source 11 of the laser rays, and the optical systems 12 and 31 for guiding the laser rays to the body 1 of the MOMBE system on a vibration proof base 30, whereby the formation of a fine pattern becomes possible.

Abstract: The growth rate of a compound semiconductor thin film is freely enhanced or suppressed by establishing a proper temperature of a substrate 10, and by irradiating by an MOMBE technique, portions corresponding to a desired pattern on the substrate 10 with laser rays having an energy lower than that of photon which can directly decompose an organometal during film growth. A compound semiconductor thin film having a fine pattern with complicated unevenness can be formed on the substrate 10. The relative positions of the source 11 of laser rays, the optical systems 12 and 31 for irradiating the substrate with the laser rays, and the substrate 10 in the vacuum chamber 1 are maintained constant by mounting the body 1 of the MOMBE system, the source 11 of the laser rays, and the optical system 12 and 31 for guiding the laser rays to the body 1 of the MOMBE system on a vibration proof base 30, whereby the formation of a fine pattern becomes possible.

Abstract: A method of forming a III-V semiconductor on the surface of a substrate which is placed in a vacuum chamber and is heated, by supplying one element of Group III and one element of Group V of the periodic table in the form of atoms or molecules to the surface of the substrate. The supply of the element of Group V is decreased to a small quantity insufficient to form a III-V compound semiconductor at least at one period of the growth of the III-V compound, and the element of Group V in the small quantity and the element of Group III are supplied to the surface of the substrate. This method makes it possible to grow III-V compound epitaxial layers which have a high degree of purity and fewer crystal defects and in which surfaces and the interfaces of the heterojunctions are flat on an atomic scale, at a wide temperature range. The present invention can be used for the fabrication of various optical devices and super-high-speed electronic devices.