Vertical output couplers for photonic devices

What is claimed is: 1. A method of forming a vertical output coupler for a waveguide that propagates light, along a horizontal propagation direction, through a waveguide material that overlies a buried oxide layer, the method comprising: etching the waveguide material to form the waveguide; etching the waveguide material to remove at least a first portion of the waveguide, wherein the etching forms: at least a first tilted plane in the waveguide material, and a space between an unetched portion of the waveguide and the first tilted plane; coating the first tilted plane with a reflective metal to form a tilted mirror; and depositing an index matching material into the space between the unetched portion of the waveguide and the tilted mirror so that light propagating through the waveguide into the space continues through the index matching material to the tilted mirror, and the tilted mirror reflects the light upwardly, wherein depositing the index matching material into the space between the unetched portion of the waveguide and the tilted mirror comprises depositing amorphous silicon. 2. The method of claim 1 , further comprising annealing the amorphous silicon, to convert the amorphous silicon to polysilicon. 3. A method of forming a vertical output coupler for a waveguide that propagates light, along a horizontal propagation direction, through a waveguide material that overlies a buried oxide layer, the method comprising: etching the waveguide material to form the waveguide; etching the waveguide material to remove at least a first portion of the waveguide, wherein the etching forms: at least a first tilted plane in the waveguide material, and a space between an unetched portion of the waveguide and the first tilted plane; coating the first tilted plane with a reflective metal to form a tilted mirror; and depositing an index matching material into the space between the unetched portion of the waveguide and the tilted mirror so that light propagating through the waveguide into the space continues through the index matching material to the tilted mirror, and the tilted mirror reflects the light upwardly, wherein depositing the index matching material into the space between the unetched portion of the waveguide and the tilted mirror comprises depositing the index matching material to a thickness that substantially exceeds a height of the unetched portion of the waveguide; the method further comprising etching the index matching material to form a bridge between the unetched portion of the waveguide and the tilted mirror, the bridge being approximately equal in height to the unetched portion of the waveguide. 4. The method of claim 3 , further comprising planarizing the index matching material, prior to etching the index matching material to form the bridge between the unetched portion of the waveguide and the tilted mirror. 5. The method of claim 3 , further comprising laterally patterning the index matching material to form a waveguide ridge that adjoins a waveguide ridge of the unetched portion of the waveguide. 6. The method of claim 5 , wherein laterally patterning the index matching material to form the waveguide ridge comprises patterning the index matching material with a profile that tapers outwardly from an initial width matching the waveguide ridge of the unetched portion of the waveguide, to a final width proximate the tilted mirror so that a beam size of the light propagating through the waveguide expands as it propagates toward the tilted mirror. 7. A method of forming a vertical output coupler for a waveguide that propagates light, along a horizontal propagation direction, through a waveguide material that overlies a buried oxide layer, the method comprising: etching the waveguide material to form the waveguide; etching the waveguide material to remove at least a first portion of the waveguide, wherein the etching forms: at least a first tilted plane in the waveguide material, a space between an unetched portion of the waveguide and the first tilted plane, and a second tilted plane that bounds the unetched portion of the waveguide; coating the first tilted plane with a reflective metal to form a tilted mirror; depositing an index matching material into the space between the unetched portion of the waveguide and the tilted mirror so that light propagating through the waveguide into the space continues through the index matching material to the tilted mirror, and the tilted mirror reflects the light upwardly; forming a photoresist mask over the first tilted plane; etching away the second tilted plane to enlarge the space, leaving a substantially vertical end face on the unetched portion of the waveguide, while the photoresist mask protects the first tilted plane; and etching a portion of the buried oxide layer beneath the enlarged space, after etching away the second tilted plane and before depositing the index matching material; wherein the steps of forming the photoresist mask and etching away the second tilted plane precede coating the first tilted plane with the reflective metal. 8. A method of forming a vertical output coupler for a waveguide that propagates light, along a horizontal propagation direction, through a waveguide material that overlies a buried oxide layer, the method comprising: etching the waveguide material to form the waveguide; etching the waveguide material to remove at least a first portion of the waveguide, wherein the etching forms: at least a first tilted plane in the waveguide material, a space between an unetched portion of the waveguide and the first tilted plane, and a second tilted plane that bounds the unetched portion of the waveguide; coating the first tilted plane with a reflective metal to form a tilted mirror; depositing an index matching material into the space between the unetched portion of the waveguide and the tilted mirror so that light propagating through the waveguide into the space continues through the index matching material to the tilted mirror, and the tilted mirror reflects the light upwardly; forming a photoresist mask over the first tilted plane; etching away the second tilted plane to enlarge the space, leaving a substantially vertical end face on the unetched portion of the waveguide, while the photoresist mask protects the first tilted plane; and further comprising, after coating the first tilted plane with the reflective metal to form the tilted mirror: depositing a support material over the enlarged space and unetched portions of the waveguide; and etching back the support material deposited over the space until a top surface of the etched back support material substantially coincides with a top surface of the buried oxide layer, so that the remaining support material deposited over the space forms a bridge support for the index matching material; wherein: the steps of depositing the support material, planarizing the support material and etching the support material precede the step of depositing the index matching material; and the steps of forming the photoresist mask and etching away the second tilted plane precede coating the first tilted plane with the reflective metal. 9. The method of claim 8 , further comprising planarizing the support material deposited over the space and the unetched portions of the waveguide prior to the step of etching back the support material. 10. A method of forming a vertical output coupler for a waveguide that propagates light, along a horizontal propagation direction, through a waveguide material that overlies a buried oxide layer, the method comprising: etching the waveguide material to form the waveguide; etching the waveguide material to remove at least a fir