Method of making glass waveguide for optical circuit
First Claim
1. A method of fabricating a glass waveguide for use in an optical circuit, said waveguide being formed of a substrate having laminated glass layers of different refractive indexes thereon, said method comprising the steps of:
- placing at least one substrate in a reaction vessel having a reacting section and depositing section, the inlet of said depositing section being in the vicinity of the outlet of said reacting section;
establishing a temperature gradient in the depositing section of said reaction vessel which gradually decreases from the inlet to the outlet thereof, the temperature gradient in the vicinity of said substrate being within the range 1°
C./cm to 20°
C./cm;
introducing glass forming gases into said reaction vessel, said glass forming gases comprising (1) halides of elements selected from the group consisting of Si and Ti, B, P and Ge, and (2) one of oxygen and steam;
heating said glass forming gases, said glass forming gases being heated in a vapor phase to form fine glass particles by thermal oxidation or by hydrolysis, the reaction temperature at the inlet of said depositing section being selected so that said fine glass particles are formed by said glass forming gases;
depositing said fine glass particles on said substrate;
heating said substrate and deposited fine glass particles thereby vitrifying said particles into a transparent glass layer having a relatively high refractive index;
removing portions of said transparent glass layer in accordance with a predetermined pattern to form a core for said waveguide; and
covering said core with a material having a refractive index which is lower than the refractive index of said core.
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Accused Products
Abstract
Halides of Si and Ti, B, P, or Ge and oxygen or steam are introduced into a reaction vessel and heated in a vapor phase to form fine glass particles by oxidation or hydrolysis. The fine glass particles are deposited on a substrate. The deposited fine glass particles are heated and vitrified into a transparent glass layer, which is etched to form a core having a desired pattern by a reactive sputter etching process using Freon gas. The core is coated by a clad. In a waveguide thus formed, the cross sectional configuration and dimensions of the core layer and the refractive index difference are precisely controlled. The waveguide is manufactured with good reproducibility. The fabrication method is suitable for mass production of waveguides. An expansion coefficient transient layer is provided between the core layer and the substrate to prevent a crack in the waveguide. The glass softening temperature of the cladding layer is set lower than that of the core layer, so that the cross sectional configuration and dimensions of the core layer is unchanged against the heat in the vitrification process of the cladding layer. The refractive index is reduced in the vicinity of the boundary between the core and clad to prevent the loss of light due to light scattering on the core side faces.
60 Citations
8 Claims
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1. A method of fabricating a glass waveguide for use in an optical circuit, said waveguide being formed of a substrate having laminated glass layers of different refractive indexes thereon, said method comprising the steps of:
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placing at least one substrate in a reaction vessel having a reacting section and depositing section, the inlet of said depositing section being in the vicinity of the outlet of said reacting section; establishing a temperature gradient in the depositing section of said reaction vessel which gradually decreases from the inlet to the outlet thereof, the temperature gradient in the vicinity of said substrate being within the range 1°
C./cm to 20°
C./cm;introducing glass forming gases into said reaction vessel, said glass forming gases comprising (1) halides of elements selected from the group consisting of Si and Ti, B, P and Ge, and (2) one of oxygen and steam; heating said glass forming gases, said glass forming gases being heated in a vapor phase to form fine glass particles by thermal oxidation or by hydrolysis, the reaction temperature at the inlet of said depositing section being selected so that said fine glass particles are formed by said glass forming gases; depositing said fine glass particles on said substrate; heating said substrate and deposited fine glass particles thereby vitrifying said particles into a transparent glass layer having a relatively high refractive index; removing portions of said transparent glass layer in accordance with a predetermined pattern to form a core for said waveguide; and covering said core with a material having a refractive index which is lower than the refractive index of said core. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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Specification