Bonded bodies for optical modulators, optical modulators and a method of producing bonded bodies for optical modulators

The invention claimed is: 1. A bonded body for an optical modulator, said bonded body comprising: a supporting substrate; an optical waveguide material provided on said supporting substrate and comprising a material selected from the group consisting of lithium niobate, lithium tantalate and lithium niobate-lithium tantalate; and an optical waveguide in said optical waveguide material, wherein said supporting substrate comprises a material selected from the group consisting of steatite and forsterite, so as to provide an improved bandwidth of electro-optic modulation by the optical modulator. 2. The bonded body for the optical modulator of claim 1 , further comprising a bonding layer between said supporting substrate and said optical waveguide material. 3. The bonded body for the optical modulator of claim 2 , wherein said bonding layer comprises an oxide film. 4. An optical modulator comprising: the bonded body for the optical modulator of claim 1 ; and an electrode provided on said optical waveguide material and modulating a light propagating in said optical waveguide. 5. A method of producing a bonded body for an optical modulator, said method comprising the steps of: bonding a supporting substrate comprising a material selected from the group consisting of steatite and forsterite, so as to provide an improved bandwidth of electro-optic modulation by the optical modulator, and an optical waveguide material comprising a material selected from the group consisting of lithium niobate, lithium tantalate and lithium niobate-lithium tantalate; and providing an optical waveguide in said optical waveguide material. 6. The method of claim 5 , further comprising the step of providing a bonding layer between said supporting substrate and said optical waveguide material. 7. The method of claim 5 , further comprising the steps of: forming a first oxide film on said optical waveguide material; forming a second oxide film on said supporting substrate; and directly bonding said first oxide film and said second oxide film. 8. The method of claim 7 , further comprising the steps of: irradiating a neutralized atomic beam on a surface of said first oxide film to provide a first activated surface; and irradiating a neutralized atomic beam on a surface of said second oxide film to provide a second activated surface, wherein said first activated surface and said second activated surface are directly bonded with each other.