Tunable lasers based on InGaAsP/InP microring resonators are demonstrated. Tuning ranges from 18 to 30 nm are achieved by the interaction of phase shifted counterpropagating modes through back-reflection at the chip facets
Coupled microring arrangements with balanced gain and loss, also known as parity-time symmetric syst...
We present an architecture permitting broad tuning of monolithic microchip lasers by using a wedged ...
We introduce a novel concept of discretely tunable semiconductor lasers with on-chip filtered optica...
A tunable laser based on an InGaAsP-InP microring resonator with multimode interference coupler is d...
Microring resonators are excellent candidates for very large scale photonic integration due to their...
We report on the free-running and frequency stabilized operation of a ring resonator-tuned full-band...
a widely tunable laser source based on double microrings is presented which exhibits tuning range up...
Wavelength tuning in a single mode parity-time (PT) symmetric semiconductor microring laser is demon...
Chip-scale widely-tunable lasers are important for both communication and sensing applications. They...
Combining an InP semiconductor optical amplifier (SOA) with a micro-ring resonator feedback circuit ...
Tunable laser diodes are needed in a range of applications including wavelength division multiplexin...
We report a silicon electro-optic switch using a microring resonator with phase-tunable feedback. We...
Micro-ring resonators are a strong candidate for the basic building blocks of very-large-scale-integ...
Detailed characterization of a hybrid integrated tunable laser based on micro-ring resonators shows ...
Coupled microring arrangements with balanced gain and loss, also known as parity-time symmetric syst...
Coupled microring arrangements with balanced gain and loss, also known as parity-time symmetric syst...
We present an architecture permitting broad tuning of monolithic microchip lasers by using a wedged ...
We introduce a novel concept of discretely tunable semiconductor lasers with on-chip filtered optica...
A tunable laser based on an InGaAsP-InP microring resonator with multimode interference coupler is d...
Microring resonators are excellent candidates for very large scale photonic integration due to their...
We report on the free-running and frequency stabilized operation of a ring resonator-tuned full-band...
a widely tunable laser source based on double microrings is presented which exhibits tuning range up...
Wavelength tuning in a single mode parity-time (PT) symmetric semiconductor microring laser is demon...
Chip-scale widely-tunable lasers are important for both communication and sensing applications. They...
Combining an InP semiconductor optical amplifier (SOA) with a micro-ring resonator feedback circuit ...
Tunable laser diodes are needed in a range of applications including wavelength division multiplexin...
We report a silicon electro-optic switch using a microring resonator with phase-tunable feedback. We...
Micro-ring resonators are a strong candidate for the basic building blocks of very-large-scale-integ...
Detailed characterization of a hybrid integrated tunable laser based on micro-ring resonators shows ...
Coupled microring arrangements with balanced gain and loss, also known as parity-time symmetric syst...
Coupled microring arrangements with balanced gain and loss, also known as parity-time symmetric syst...
We present an architecture permitting broad tuning of monolithic microchip lasers by using a wedged ...
We introduce a novel concept of discretely tunable semiconductor lasers with on-chip filtered optica...
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