We propose a design for an optical buffer that comprises two coupled silicon waveguides, which is capable of generating a large continuously tunable change in the propagation delay time. The optical delay can be varied by more than 100% through varying the spacing between the waveguides
Electronically tunable optical true-time delay lines are proposed. The devices utilize the combinati...
A reconfigurable coupled-resonator optical waveguide made of a few directly coupled ring resonators ...
In this paper, we report a direct comparison between coupled resonator optical waveguides (CROWs) an...
We propose a chip-based optical buffer that is continuously tunable by microelectromechanical actuat...
We present our work towards development of an optical buffer based on the InP platform that consists...
We present design and fabrication of free-standing InP optical waveguides for MEMS-actuated optical ...
We present our work on fully integrated hybrid silicon optical buffers capable of holding 40 byte pa...
In this paper we present the rationale behind photonic integration of optical buffers for packet swi...
High-speed, tunable integrated silicon photonic delay lines are demonstrated by cascading complement...
A novel class of high-speed and tunable integrated photonic delay lines that compromise between loss...
We show a direct comparison between silicon reconfigurable delay lines based on coupled resonator op...
We are developing a MEMS-based device that can produce continuously tunable delays of optical signal...
The potential of coupled resonator optical waveguides (CROWs) as integrated reconfigurable delay lin...
Tunable on-chip optical delay has long been a key target for the research community, as it is the en...
This paper reports two advances in a slow light device consisting of chirped photonic crystal slab c...
Electronically tunable optical true-time delay lines are proposed. The devices utilize the combinati...
A reconfigurable coupled-resonator optical waveguide made of a few directly coupled ring resonators ...
In this paper, we report a direct comparison between coupled resonator optical waveguides (CROWs) an...
We propose a chip-based optical buffer that is continuously tunable by microelectromechanical actuat...
We present our work towards development of an optical buffer based on the InP platform that consists...
We present design and fabrication of free-standing InP optical waveguides for MEMS-actuated optical ...
We present our work on fully integrated hybrid silicon optical buffers capable of holding 40 byte pa...
In this paper we present the rationale behind photonic integration of optical buffers for packet swi...
High-speed, tunable integrated silicon photonic delay lines are demonstrated by cascading complement...
A novel class of high-speed and tunable integrated photonic delay lines that compromise between loss...
We show a direct comparison between silicon reconfigurable delay lines based on coupled resonator op...
We are developing a MEMS-based device that can produce continuously tunable delays of optical signal...
The potential of coupled resonator optical waveguides (CROWs) as integrated reconfigurable delay lin...
Tunable on-chip optical delay has long been a key target for the research community, as it is the en...
This paper reports two advances in a slow light device consisting of chirped photonic crystal slab c...
Electronically tunable optical true-time delay lines are proposed. The devices utilize the combinati...
A reconfigurable coupled-resonator optical waveguide made of a few directly coupled ring resonators ...
In this paper, we report a direct comparison between coupled resonator optical waveguides (CROWs) an...
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