Sasikanth Manipatruni scite author profile

Synchronization, the emergence of spontaneous order in coupled systems, is of fundamental importance in both physical and biological systems. We demonstrate the synchronization of two dissimilar silicon nitride micromechanical oscillators, that are spaced apart by a few hundred nanometers and are coupled through an optical cavity radiation field. The tunability of the optical coupling between the oscillators enables one to externally control the dynamics and switch between coupled and individual oscillation states. These results pave a path toward reconfigurable synchronized oscillator networks.

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Beyond CMOS computing with spin and polarization

Manipatruni

2018

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12.5 Gbit/s silicon micro-ring silicon modulators

et al. 2007

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125 Gbit/s carrier-injection-based silicon micro-ring silicon modulators

et al. 2007

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On-Chip Optical Squeezing

et al. 2015

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We report the observation of observation of all-optical squeezing in an on-chip monolithically integrated CMOS-compatible platform. Our device consists of a low loss silicon nitride microring optical parametric oscillator (OPO) with a gigahertz cavity linewidth. We measure 1.7 dB (5 dB corrected for losses) of sub-shot noise quantum correlations between bright twin beams generated in the microring four-wave-mixing OPO pumped above threshold. This experiment demonstrates a compact, robust, and scalable platform for quantum optics and quantum information experiments on-chip.

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Optical Nonreciprocity in Optomechanical Structures

2009

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We demonstrate that optomechanical devices can exhibit nonreciprocal behavior when the dominant light-matter interaction takes place via a linear momentum exchange between light and the mechanical structure. As an example, we propose a microscale optomechanical device that can exhibit a nonreciprocal behavior in a microphotonic platform operating at room temperature. We show that, depending on the direction of the incident light, the device switches between a high and low transparency state with more than a 20 dB extinction ratio.

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Integrated GHz silicon photonic interconnect with micrometer-scale modulators and detectors

Chen¹,

Preston²,

Manipatruni³

et al. 2009

Opt. Express

179

117

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Abstract:We report an optical link on silicon using micrometer-scale ring-resonator enhanced silicon modulators and waveguide-integrated germanium photodetectors. We show 3 Gbps operation of the link with 0.5 V modulator voltage swing and 1.0 V detector bias. The total energy consumption for such a link is estimated to be ~120 fJ/bit. Such compact and low power monolithic link is an essential step towards large-scale on-chip optical interconnects for future microprocessors. Fdli, and R. Baets, "Carrier injection-based electro-optic modulator on silicon-on-insulator with a heterogeneously integrated III-V microdisk cavity," Opt. Lett. 33, 2518Lett. 33, -2520Lett. 33, (2008.

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