Method of making a planar optical amplifier
First Claim
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1. A method for forming an optical device on a substrate having a substantially planar principal surface, comprising:
- a) forming a first layer of vitreous silicon dioxide on the principal surface;
b) depositing a second layer of silica-based glass over the first layer by sputtering a target of silica-based glass such that the second layer has a higher refractive index than the first layer;
c) annealing the second layer such that it is stabilized;
d) removing a portion of the second layer by etching, such that an elongate core, extending along the longitudinal axis, is formed, the core being adapted, after completion of the device, to guide electromagnetic radiation of at least a signal wavelength and a pump wavelength; and
e) depositing a third layer of phosphosilicate glass over the core such that the third layer has a smaller refractive index than the core;
characterized in thatf) the target further comprises sodium and erbium; and
g) the target composition is selected such that the core has an erbium-to-silicon atomic ratio of at least about 0.01, a sodium-to-silicon atomic ratio in the approximate range 0.2-0.6, and an absolute erbium concentration of at least about 1.4×
1020 atoms per cubic centimeter, and the target composition is further selected such that a lasing level is associated with the erbium in the core, the lasing level having a radiative lifetime of at least about 7 ms.
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Abstract
An active optical device comprises a glass, waveguiding structure disposed on a substantially planar principal surface of a substrate. The structure includes a silica-based, erbium-doped active core. The active core has an erbium-to-silicon atomic ratio of at least about 0.01, an absolute erbium concentration of at least about 1.4×1020 atoms per cubic centimeter, and a radiative lifetime of the erbium lasing level of at least about 7 milliseconds. Also disclosed is a method for forming an active optical device, including the step of depositing an erbium-doped active core by sputtering.
77 Citations
9 Claims
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1. A method for forming an optical device on a substrate having a substantially planar principal surface, comprising:
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a) forming a first layer of vitreous silicon dioxide on the principal surface; b) depositing a second layer of silica-based glass over the first layer by sputtering a target of silica-based glass such that the second layer has a higher refractive index than the first layer; c) annealing the second layer such that it is stabilized; d) removing a portion of the second layer by etching, such that an elongate core, extending along the longitudinal axis, is formed, the core being adapted, after completion of the device, to guide electromagnetic radiation of at least a signal wavelength and a pump wavelength; and e) depositing a third layer of phosphosilicate glass over the core such that the third layer has a smaller refractive index than the core; characterized in that f) the target further comprises sodium and erbium; and g) the target composition is selected such that the core has an erbium-to-silicon atomic ratio of at least about 0.01, a sodium-to-silicon atomic ratio in the approximate range 0.2-0.6, and an absolute erbium concentration of at least about 1.4×
1020 atoms per cubic centimeter, and the target composition is further selected such that a lasing level is associated with the erbium in the core, the lasing level having a radiative lifetime of at least about 7 ms. - View Dependent Claims (2, 3, 4, 5)
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6. A method for forming an optical device on a substrate having a substantially planar principal surface, comprising:
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a) forming a first layer of silicon dioxide on the principal surface; b) depositing a second layer of phosphosilicate glass over the first layer such that the second layer has a higher refractive index than the first layer, c) annealing the second layer such that it is at least partially densified; d) removing a portion of the second layer by etching, such that an elongate lower core having a longitudinal axis is formed, the lower core being adapted, after completion of the device, to guide electromagnetic radiation of at least a signal wavelength and a pump wavelength; e) annealing the lower core such that roughness due to etching of the second layer is substantially removed; f) depositing a third layer of silica-based glass over the lower core by sputtering a target of silica-based glass such that the third layer has a higher refractive index than the lower core; g) annealing the third layer such that it is stabilized; h) removing a portion of the third layer by etching, such that an elongate upper core, extending along the longitudinal axis, is formed, the upper core being adapted, after completion of the device, to guide electromagnetic radiation of the signal and pump wavelengths; i) annealing the upper core at a temperature of at least about 700°
C. for a duration of at least about 1 hour in a reactive atmosphere; andj) depositing a fourth layer of phosphosilicate glass over the upper and lower cores such that the fourth layer has a smaller refractive index than the upper and lower cores; characterized in that k) the target further comprises sodium and erbium; and l) the target composition is selected such that the third layer has an erbium-to-silicon atomic ratio of at least about 0.01, a sodium-to-silicon atomic ratio in the approximate range 0.2-0.6, and an absolute erbium concentration of at least about 1.4×
1020 atoms per cubic centimeter, and the target composition is further selected such that a lasing level is associated with the erbium in the third layer, the lasing level having a radiative lifetime of at least about 7 ms. - View Dependent Claims (7, 8, 9)
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Specification