Long wavelength VCSEL device processing
First Claim
Patent Images
1. A method for making a laser device, comprising:
- forming a first mirror on a front-side of a substrate;
forming an active region on the first mirror;
forming a second mirror on the active region;
forming a first dielectric layer on the second mirror;
forming a trench along a perimeter of a first area defining the laser device;
oxidizing a layer in the second mirror to form an aperture for the laser device;
forming a second dielectric on the first dielectric and in the trench;
etching the first and second dielectric layers from a second area on the second mirror;
forming a first layer of electrical contact material on the second area on the second mirror; and
forming a second layer of electrical contact material bridging the trench and having electrical contact with the first layer of electrical contact material.
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Abstract
A process for making a laser structure. The process is for the fabrication of a laser device such a vertical cavity surface emitting laser (VCSEL). The structures made involve dielectric and spin-on material planarization over wide and narrow trenches, coplanar contacts, non-coplanar contacts, thick and thin pad dielectric, air bridges and wafer thinning.
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Citations
24 Claims
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1. A method for making a laser device, comprising:
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forming a first mirror on a front-side of a substrate;
forming an active region on the first mirror;
forming a second mirror on the active region;
forming a first dielectric layer on the second mirror;
forming a trench along a perimeter of a first area defining the laser device;
oxidizing a layer in the second mirror to form an aperture for the laser device;
forming a second dielectric on the first dielectric and in the trench;
etching the first and second dielectric layers from a second area on the second mirror;
forming a first layer of electrical contact material on the second area on the second mirror; and
forming a second layer of electrical contact material bridging the trench and having electrical contact with the first layer of electrical contact material. - View Dependent Claims (2, 3, 4, 5)
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6. A method for making a laser device, comprising:
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forming a first mirror on a front-side of a substrate;
forming an active region on the first mirror;
forming a second mirror on the active region;
forming a first dielectric layer on the second mirror;
forming a trench along a perimeter of a first area defining the laser device;
oxidizing a layer in the second mirror to form an aperture for the laser device;
forming a second dielectric on the first dielectric and in the trench;
etching the first and second dielectric layers from a second area on the second mirror;
forming a first layer of electrical contact material on the second area on the second mirror; and
filling the trench with a material;
planarizng the material in the trench to a level matching the level of the second dielectric layer outside the trench; and
forming a second layer of electrical contact material on the planarized material and the second dielectric layer, having electrical contact with the first layer of electrical contact material to provide an electrical connection from the first layer of electrical contact material to a location beyond the outside perimeter of the trench. - View Dependent Claims (7, 8, 9, 10)
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11. A method for making a laser device, comprising:
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forming a first mirror on a front-side of a substrate;
forming an intra cavity contact layer on the first mirror;
forming an active region on the intra cavity contact layer mirror;
forming a second mirror on the active region;
forming a first dielectric layer on the second mirror;
forming a trench along a perimeter of a first area defining the laser device;
oxidizing a layer in the second mirror to form an aperture for the laser device;
forming a second dielectric on the first dielectric and in the trench;
etching the first and second dielectric layers from a second area on the second mirror;
forming a first layer of electrical contact material on the second area on the second mirror;
forming a second layer of electrical contact material bridging the trench and having electrical contact with the first layer of electrical contact material;
etching a portion of the first and second dielectric layers, the second mirror and active region to expose a third area on the intra-cavity contact layer; and
forming a third layer of contact material on the third area of the intra-cavity contact layer. - View Dependent Claims (12, 13)
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14. A method for making a laser device, comprising:
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forming a first mirror on a front-side of a substrate;
forming an active region on the first mirror;
forming a second mirror on the active region;
forming a first dielectric layer on the second mirror;
forming a trench along a perimeter of a first area defining the laser device;
oxidizing a layer in the second mirror to form an aperture for the laser device;
forming a second dielectric on the first dielectric and in the trench;
etching the first and second dielectric layers from a second area on the second mirror;
forming a first layer of electrical contact material on the second area on the second mirror; and
filling the trench with a material;
planarizng the material in the trench to a level matching the level of the second dielectric layer outside the trench;
forming a second layer of electrical contact material on the planarized material and the second dielectric layer, having electrical contact with the first layer of electrical contact material to provide an electrical connection from the first layer of electrical contact material to a location beyond the outside perimeter of the trench;
etching a portion of the first and second dielectric layers, the second mirror and active region to expose a third area on the intra-cavity contact layer; and
forming a third layer of contact material on the third area of the intra-cavity contact layer. - View Dependent Claims (15, 16)
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17. A method for making a laser device, comprising:
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forming a first mirror on a front-side of a substrate;
forming an active region on the first mirror;
forming a second mirror on the active region;
forming a first dielectric layer on the second mirror;
forming a trench along a perimeter of a first area defining the laser device;
forming an aperture within the perimeter of the first area, with an ion implantation in a portion of the second mirror;
forming a second dielectric on the first dielectric and in the trench;
etching the first and second dielectric layers from a second area on the second mirror;
forming a first layer of electrical contact material on the second area on the second mirror; and
forming a second layer of electrical contact material bridging the trench and having electrical contact with the first layer of electrical contact material. - View Dependent Claims (18, 19, 20)
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21. A method for making a laser device, comprising:
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forming a first mirror on a front-side of a substrate;
forming an active region on the first mirror;
forming a second mirror on the active region;
forming a first dielectric layer on the second mirror;
forming a trench along a perimeter of a first area defining the laser device;
forming an aperture within the perimeter of the first area, with an ion implantation in a portion of the second mirror;
forming a second dielectric on the first dielectric and in the trench;
etching the first and second dielectric layers from a second area on the second mirror;
forming a first layer of electrical contact material on the second area on the second mirror; and
forming a second layer of electrical contact material bridging the trench and having electrical contact with the first layer of electrical contact material;
etching a portion of the first and second dielectric layers, the second mirror and active region to expose a third area on the intra-cavity contact layer; and
forming a third layer of contact material on the third area of the intra-cavity contact layer. - View Dependent Claims (22)
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23. A method for making a vertical cavity surface emitting laser comprising:
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depositing an oxide layer on a structure comprising;
a first mirror;
an active region on the first mirror; and
a second mirror on the active region; and
wherein;
the oxide layer is on the second mirror; and
the second mirror has at least one oxidizable layer;
placing a first mask having a trench pattern on the oxide layer;
etching the oxide layer and the second mirror to form a trench;
removing the first mask;
partially oxidizing the at least one oxidizable layer to form a first aperture in the second mirror;
placing a second mask, having a pattern for implanting, on the oxide layer;
implanting a portion of the second mirror;
removing the second mask;
depositing a nitride layer on the oxide layer;
depositing a second oxide layer on the nitride layer;
placing a third mask having an aperture pattern on the second oxide layer;
etching the second oxide layer and the nitride layer in a form of the aperture;
removing the third mask;
placing a fourth mask having a contact pattern on the second oxide layer and the first oxide layer;
etching an area of the first oxide layer for a contact;
depositing a metal layer on the fourth mask and the area etched for the area; and
removing the fourth mask with the metal on the fourth mask.
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24. A process for making a light emitting device comprising:
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forming a first mirror on a substrate;
forming a contact layer on the first mirror;
forming an active region on the contact layer;
forming a second mirror having at least one oxidizable layer on the active region;
forming a first oxide layer on the second mirror;
masking the first oxide layer;
etching a trench through the first oxide layer;
etching a trench into the second mirror;
removing the masking from the first oxide layer;
providing wet oxidation through the trench to oxidize a portion of the oxidation layer of the second mirror to form a first aperture;
masking a portion of the first oxide layer;
implanting ions into the second mirror and through at least a portion of the trench into the active region and the first mirror;
removing the masking from the portion of the oxide layer;
forming a passivation layer on the oxide layer, and surfaces of the trench;
forming a second oxide layer on the passivation layer;
masking the trench and a portion of the second oxide layer proximate to the trench;
etching the unmasked portion of the second oxide layer and passivation layer from the first oxide layer;
removing the masking from the trenches and the portion of the second oxide layer proximate to the trench;
masking the second oxide layer and a center portion of the exposed first oxide layer;
etching the unmasked portion of the exposed first oxide layer down to a top layer of the second mirror;
forming a first metal layer on the exposed portion of the top layer of the second mirror;
removing the masking from the second oxide layer and the center portion of the first oxide layer;
annealing the metal layer;
masking the trench and area within the metal layer;
forming a second metal layer on the masking and exposed portions of the second and first oxide layers;
masking portions of the second metal layer;
forming a third metal layer on exposed portions of the second metal layer;
removing the masking from portions of the second metal layer;
removing exposed portions of the second metal layer;
removing the masking from the trench and the area within the metal layer;
masking a whole area except a portion of the second oxide layer adjacent to a portion of the trench;
removing the unmasked portion of the second oxide layer and nitride layer, the first oxide layer, the second mirror and the active region under that unmasked portion;
undercutting below the first oxide layer a portion of the second mirror and active region;
forming a fourth metal layer on a portion of the contact layer;
removing the masking from the whole area; and
annealing the fourth metal layer.
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Specification