Deposited silicon high-speed integrated electro-optic modulator | Zendy

Kyle Preston | Zendy; Sasikanth Manipatruni | Zendy; Alexander Gondarenko | Zendy; Carl B. Poitras | Zendy; Michal Lipson | Zendy

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Deposited silicon high-speed integrated electro-optic modulator

Author(s) -

Kyle Preston,

Sasikanth Manipatruni,

Alexander Gondarenko,

Carl B. Poitras,

Michal Lipson

Publication year - 2009

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.17.005118

Subject(s) - materials science , optoelectronics , extinction ratio , silicon , resonator , silicon on insulator , nanosecond , silicon photonics , photonic integrated circuit , microelectronics , hybrid silicon laser , polycrystalline silicon , modulation (music) , optics , photonics , diode , optical modulator , laser , phase modulation , nanotechnology , layer (electronics) , thin film transistor , wavelength , philosophy , physics , aesthetics , phase noise

We demonstrate a micrometer-scale electro-optic modulator operating at 2.5 Gbps and 10 dB extinction ratio that is fabricated entirely from deposited silicon. The polycrystalline silicon material exhibits properties that simultaneously enable high quality factor optical resonators and sub-nanosecond electrical carrier injection. We use an embedded p(+)n(-)n(+) diode to achieve optical modulation using the free carrier plasma dispersion effect. Active optical devices in a deposited microelectronic material can break the dependence on the traditional single layer silicon-on-insulator platform and help lead to monolithic large-scale integration of photonic networks on a microprocessor chip.

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