Patent ID: 7662700

Claim:
An optical device wafer dividing method for dividing an optical device wafer into individual optical devices along a plurality of streets, the optical device wafer being formed with the optical devices in a plurality of areas sectioned by the streets formed in a latticelike pattern on a front surface, the method comprising: a protection plate bonding step for bonding a front surface of the optical device wafer to a front surface of a high-rigid protection plate with a peelable adhesion bond; a rear surface grinding step for grinding a rear surface of the optical device wafer stuck to the protection plate to form the optical device wafer at a device finish thickness; a reinforcing substrate bonding step for bonding a front surface of a high-rigid reinforcing substrate to the rear surface of the optical device wafer subjected to the rear surface grinding step with a peelable adhesion bond; a wafer peeling-off step for peeling off the optical device wafer stuck with the reinforcing substrate from the protection plate; a dicing tape sticking step for sticking the front surface of the optical device wafer bonded with the reinforcing substrate to a front surface of a dicing tape; a laser processing step for emitting a laser beam along the streets formed on the optical device wafer from the rear surface of the reinforcing substrate bonded to the optical device wafer stuck to the dicing tape to perform laser processing on the reinforcing substrate along the streets to form fracture starting points; a wafer dividing step for applying an external force along the fracture starting points of the reinforcing substrate subjected to the laser processing step to fracture the reinforcing substrate and the optical device wafer along the fracture starting points into individual optical devices; and a pick-up step for peeling-off and picking up, from the dicing tape, the optical devices divided by performing the wafer dividing step.