Optical wavelength converter and composite optical device

The invention claimed is: 1. An optical wavelength converter comprising an optical wavelength conversion member for converting the wavelength of incident light; a heat dissipation member having heat dissipation property superior to that of the optical wavelength conversion member; and a bonding portion for bonding the optical wavelength conversion member to the heat dissipation member, wherein the optical wavelength conversion member has an antireflective film provided on a first surface on which the light is incident so as to prevent light reflection, a reflective film provided on a second surface opposite the first surface so as to reflect light, and an intermediate film disposed between the reflective film and the bonding portion so as to improve adhesion between the reflective film and the bonding portion, wherein the optical wavelength conversion member is a ceramic fluorescent body formed of a ceramic sintered body having a fluorescent phase containing fluorescent crystal grains as a main component and a translucent phase containing translucent crystal grains as a main component, and wherein the crystal grains of the translucent phase have a composition of Al 2 O 3 , and the crystal grains of the fluorescent phase have a composition represented by the formula A 3 B 5 O 12 :Ce, wherein the element A is at least one element selected from an element group consisting of Sc, Y, and lanthanoids, excluding Ce, and the element B is Al and may optionally contain Ga, and wherein the first surface of the optical wavelength conversion member has an average surface roughness (arithmetic average roughness Sa) satisfying the following relation: 0.001 μm<Sa<0.5 μm. 2. An optical wavelength converter according to claim 1 , wherein the optical wavelength conversion member has a thickness of 100 to 400 μm as measured from the first surface to the second surface. 3. An optical wavelength converter according to claim 1 , wherein the first surface of the optical wavelength conversion member has a surface roughness (arithmetic average roughness Ra) satisfying the following relation: 0.001 μm<Ra<0.4 μm. 4. An optical wavelength converter according to claim 1 , wherein a relative refractive index difference Δn {=(n1−n2)/n1} of 0.3 or less is achieved, wherein n1 represents the refractive index of the optical wavelength conversion member, and n2 represents the refractive index of the antireflective film. 5. A composite optical device comprising an optical wavelength converter as recited in claim 1 .