The time-bandwidth limit is a mathematical tenet that affects all reciprocal resonators, stating that the product of the spectral bandwidth that can couple into a resonant system and its characteristic energy decay time is always equal to 1. Here, we develop an analytical and numerical model to show that introducing nonreciprocal coupling to a generalized resonator changes the power balance between the reflected and intracavity fields, which consequently overcomes the time-bandwidth limit of the resonant system. By performing a full evaluation of the time-bandwidth product (TBP) of the modeled resonator, we show that it represents a measure of the increased delay imparted to a light wave, with respect to what the bandwidth of the reciprocal...
In this work we analyze the waveguiding properties of a kind of side-coupled microresonator structur...
We theoretically and experimentally demonstrate dynamic, all-linear time-reversal of infrared light ...
Session I « Atoms and Solids »International audienceThe possibility of slowing down or storing light...
Funding: Hellenic Foundation for Research and Innovation (HFRI), General Secretariat for Research an...
We present a theoretical and numerical model to show how the nonreciprocal coupling in a generalized...
Most present-day resonant systems, throughout physics and engineering, are characterized by a strict...
All resonant systems throughout science and engineering, independent of their physical implementatio...
A century-old tenet in physics and engineering asserts that any type of system, having bandwidth Δω,...
This article addresses the analysis and design of nonreciprocal filters based on time-modulated reso...
Abstract We propose a scheme for nonreciprocal light propagation in two coupled cavities system, in ...
none5Coupled resonator optical waveguides (CROW) can significantly reduce light propagation pulse ve...
The interaction of a cavity with an external field is symmetric under time reversal. Thus, coupling ...
We utilize the contra-propagating cavity modes that arise from the evanescent coupling of both the r...
For many applications of slow or stopped light, the delay-time-bandwidth product is a fundamental is...
We address the trade-offs among delay, loss, and bandwidth in the design of coupled-resonator optica...
In this work we analyze the waveguiding properties of a kind of side-coupled microresonator structur...
We theoretically and experimentally demonstrate dynamic, all-linear time-reversal of infrared light ...
Session I « Atoms and Solids »International audienceThe possibility of slowing down or storing light...
Funding: Hellenic Foundation for Research and Innovation (HFRI), General Secretariat for Research an...
We present a theoretical and numerical model to show how the nonreciprocal coupling in a generalized...
Most present-day resonant systems, throughout physics and engineering, are characterized by a strict...
All resonant systems throughout science and engineering, independent of their physical implementatio...
A century-old tenet in physics and engineering asserts that any type of system, having bandwidth Δω,...
This article addresses the analysis and design of nonreciprocal filters based on time-modulated reso...
Abstract We propose a scheme for nonreciprocal light propagation in two coupled cavities system, in ...
none5Coupled resonator optical waveguides (CROW) can significantly reduce light propagation pulse ve...
The interaction of a cavity with an external field is symmetric under time reversal. Thus, coupling ...
We utilize the contra-propagating cavity modes that arise from the evanescent coupling of both the r...
For many applications of slow or stopped light, the delay-time-bandwidth product is a fundamental is...
We address the trade-offs among delay, loss, and bandwidth in the design of coupled-resonator optica...
In this work we analyze the waveguiding properties of a kind of side-coupled microresonator structur...
We theoretically and experimentally demonstrate dynamic, all-linear time-reversal of infrared light ...
Session I « Atoms and Solids »International audienceThe possibility of slowing down or storing light...