Optical waveguides of aluminum garnet
First Claim
1. An optical waveguide comprising, in combination, a waveguiding body composed of a first crystalline aluminum garnet, and a cladding comprising an epitaxially deposited layer of a second crystalline aluminum garnet, wherein said second crystalline aluminum garnet has a lower refractive index than said first crystalline aluminum garnet, and wherein the aluminum garnets for the higher refractive index body of the waveguide and for the epitaxial cladding layer are selected from aluminum garnets of the composition
whereinR represents one or more of the elements selected from the group consisting of calcium, magnesium, sodium, strontium, yttrium, lanthanum, praseodymium, neodymium, samarium, europium, gadolinium, terbium, dysprosium, holmium, erbium, thulium, ytterbium and lutetium; and
T represents one or more of the 3-valent elements selected from the group consisting of gallium, indium, and scandium;
with the provisos that(1) the molar ratio of the combined concentration of indium plus scandium to aluminum does not exceed 2;
3; and
that(2) if R is one or more of Na+1, Ca+2, Mg+2 or Sr+2, then T must include one or more charge-compensating ions selected from the group consisting of Fe+4, Ge+4, Hf+4, Ir+4, Mo+4, Nb+4, Os+4, Pb+4, Pt+4, Re+4, Rh+4, Ru+4, Si+4, Sn+4, Ta+4, Ti+4, Zr+4, V+4, W+4, As+5, Mo+5, Nb+5, Re+5, Sb+5, Ta+5, U+5, V+5, Mo+6, Re+6, W+6, and Re+7, in proportions sufficient to achieve an average cation charge of three in the crystal.
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Abstract
Optical waveguides suitable for use in high temperature environments are constructed of a waveguiding body composed of a first crystalline aluminum garnet, which is clad with an epitaxially deposited layer of a second crystalline aluminum garnet. The second crystalline aluminum garnet has a lower refractive index than the first crystalline aluminum garnet.
55 Citations
20 Claims
- 1. An optical waveguide comprising, in combination, a waveguiding body composed of a first crystalline aluminum garnet, and a cladding comprising an epitaxially deposited layer of a second crystalline aluminum garnet, wherein said second crystalline aluminum garnet has a lower refractive index than said first crystalline aluminum garnet, and wherein the aluminum garnets for the higher refractive index body of the waveguide and for the epitaxial cladding layer are selected from aluminum garnets of the composition
- space="preserve" listing-type="equation">R.sub.3 (Al,T).sub.5 O.sub.12--
wherein R represents one or more of the elements selected from the group consisting of calcium, magnesium, sodium, strontium, yttrium, lanthanum, praseodymium, neodymium, samarium, europium, gadolinium, terbium, dysprosium, holmium, erbium, thulium, ytterbium and lutetium; and T represents one or more of the 3-valent elements selected from the group consisting of gallium, indium, and scandium; with the provisos that (1) the molar ratio of the combined concentration of indium plus scandium to aluminum does not exceed 2;
3; and
that(2) if R is one or more of Na+1, Ca+2, Mg+2 or Sr+2, then T must include one or more charge-compensating ions selected from the group consisting of Fe+4, Ge+4, Hf+4, Ir+4, Mo+4, Nb+4, Os+4, Pb+4, Pt+4, Re+4, Rh+4, Ru+4, Si+4, Sn+4, Ta+4, Ti+4, Zr+4, V+4, W+4, As+5, Mo+5, Nb+5, Re+5, Sb+5, Ta+5, U+5, V+5, Mo+6, Re+6, W+6, and Re+7, in proportions sufficient to achieve an average cation charge of three in the crystal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- 3. The optical waveguide of claim 1 wherein the body of the waveguide is an aluminum garnet selected from the composition (Y,Lu)3 (Al,In)5 O12, (Y,Lu)3 (Al,Sc)5 O12, (Tb,Lu)3 Al5 O12 and Ho3 Al5 O12.
- 4. The optical waveguide of claim 3 wherein the epitaxial cladding layer is yttrium aluminum garnet.
- 5. The optical waveguide of claim 3 wherein the body of the waveguide has the composition Y2 Lu1 Al4.2 In0.3 O12 and the epitaxial cladding layer is yttrium aluminum garnet.
- 6. The optical waveguide of claim 3 wherein the body of the waveguide has the composition Tb1.75 Lu1.25 Al5 O12 and the epitaxial cladding layer is yttrium aluminum garnet.
- 7. The optical waveguide of claim 2 comprising an yttrium aluminum garnet base, having epitaxially deposited thereon an aluminum garnet waveguiding body of the composition R3 (Al,T)5 O12 having a higher refractive index than said yttrium aluminum garnet, and having an epitaxial cladding layer of yttrium aluminum garnet on said aluminum garnet of the composition R3 (Al,T)5 O12.
- 8. The optical waveguide of claim 7 wherein said aluminum garnet waveguiding body is in the form of a waveguiding rib.
- 9. The optical waveguide of claim 8 wherein said waveguiding rib is located within a channel formed in the yttrium aluminum garnet base.
- 10. The optical waveguide of claim 2 having a waveguiding body in the form of an elongated waveguiding member, having deposited thereon an epitaxial cladding layer of an aluminum garnet having a lower refractive index than said waveguiding body.
- 11. The optical waveguide of claim 10 wherein said elongated waveguiding member is an optical fiber.
- 12. The optical waveguide of claim 11 wherein the epitaxial cladding layer is yttrium aluminum garnet.
- 13. The optical waveguide of claim 12 wherein the optical fiber is an aluminum garnet selected from the composition (Y,Lu)3 (Al,In)5 O12, (Y,Lu)3 (Al,Sc)5 O12, (Tb,Lu)3 Al5 O12 and Ho3 Al5 O12.
- 14. The method for forming an optical waveguide which comprises providing a base of a first aluminum garnet, epitaxially depositing thereon a second aluminum garnet having a higher refractive index than said first aluminum garnet, and epitaxially depositing on said second aluminum garnet a third aluminum garnet cladding layer having a lower refractive index than said second aluminum garnet, wherein said aluminum garnets for said body of the waveguide and for said epitaxial cladding layers are selected from aluminum garnets of the composition
- space="preserve" listing-type="equation">R.sub.3 (Al,T).sub.5 O.sub.12--
wherein R represents one or more of the elements selected from the group consisting of calcium, magnesium, sodium, strontium, yttrium, lanthanum, praseodymium, neodymium, samarium, europium, gadolinium, terbium, dysprosium, holmium, erbium, thulium, ytterbium and lutetium; and T represents one or more of the 3-valent elements selected from the group consisting of gallium, indium, and scandium; - View Dependent Claims (15, 16, 17)
- 18. The method for making an elongated optical waveguide which comprises forming an elongated waveguiding body of a first aluminum garnet, and epitaxially depositing thereon a second aluminum garnet having a lower refractive index than said first aluminum garnet, wherein said aluminum garnets for the higher refractive index body of the waveguide and for the epitaxial cladding layer are selected from aluminum garnets of the composition
- space="preserve" listing-type="equation">R.sub.3 (Al,T).sub.5 O.sub.12--
wherein R represents one or more of the elements selected from the group consisting of calcium, magnesium, sodium, strontium, yttrium, lanthanum, praseodymium, neodymium, samarium, europium, gadolinium, terbium, dysprosium, holmium, erbium, thulium, ytterbium and lutetium; and T represents one or more of the 3-valent elements selected from the group consisting of gallium, indium, and scandium; with the provisos that (1) the molar ratio of the combined concentration of indium plus scandium to aluminum does not exceed 2;
3; and
that(2) if R is one or more of Na+1, Ca+2, Mg+2 or Sr+2, then T must include one or more charge-compensating ions selected from the group consisting of Fe+4, Ge+4, Hf+4, Ir+4, Mo+4, Nb+4, Os+4, Pb+4, Pt+4, Re+4, Rh+4, Ru+4, Si+4, Sn+4, Ta+4, Ti+4, Zr+4, V+4, W+4, As+5, Mo+5, Nb+5, Re+5, Sb+5, Ta+5, U+5, V+5, Mo+6, Re+6, W+6, and Re+7, in proportions sufficient to achieve an average cation charge of three in the crystal. - View Dependent Claims (19, 20)
Specification