Sophie Schönenberger scite author profile

Sophie Schönenberger

5Publications

45Citation Statements Received

46Citation Statements Given

How they've been cited

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Affiliations

IBM Research - Zurich

Publications

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Ultrafast all-optical modulator with femtojoule absorbed switching energy in silicon-on-insulator

Schönenberger¹,

Stöferle²,

Moll³

et al. 2010

Opt. Express

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We demonstrate an all-optical switch based on a waveguide-embedded 1D photonic crystal cavity fabricated in silicon-on-insulator technology. Light at the telecom wavelength is modulated at high-speed by control pulses in the near infrared, harnessing the plasma dispersion effect. The actual absorbed switching power required for a 3 dB modulation depth is measured to be as low as 6 fJ. While the switch-on time is on the order of a few picoseconds, the relaxation time is almost 500 ps and limited by the lifetime of the charge carriers.

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Circular Grating Resonators as Small Mode-Volume Microcavities for Switching

Schönenberger¹,

Moll²,

Stöferle³

et al. 2009

Opt. Express

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We demonstrate the suitability of microcavities based on circular grating resonators (CGRs) as fast switches. This type of optical resonator is characterized by a high quality factor and very small mode volume. The waveguide-coupled CGRs are fabricated with silicon-on-insulator technology compatible with standard complementary metal-oxide semiconductor (CMOS) processing. The linear optical properties of the CGRs are investigated by transmission spectroscopy. From 3D finite-difference time-domain simulations of isolated CGRs, we identify the measured resonances. We probe the spatial distribution and the parasitic losses of a resonant optical mode with scanning near-field optical microscopy. We observe fast all-optical switching within a few picoseconds by optically generating free charge carriers within the cavity.

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CMOS compatible cost-efficient fabrication of SOI grating couplers

Bolten

Hofrichter

Moll

et al. 2009

Microelectronic Engineering

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Ultra-high quality-factor resonators with perfect azimuthal modal-symmetry

Moll¹,

Stöferle²,

Schönenberger³

et al. 2009

Opt. Express

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We study circular grating resonators (CGRs) which are formed by a central defect surrounded by concentric rings composing a grating and which display perfect azimuthal modal-symmetry. Because of their radial symmetry they exhibit a complete band gap for a minimal index contrast. However, as is the case for all 2D resonators their quality factors are limited by vertical losses. To reduce the vertical losses we introduce a chirp of the grating period by reducing it towards the central defect. The chirped CGRs exhibit drastically improved quality factors of up to tens of millions with a modal volume of a few cubic wavelengths.

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Circular grating resonators as candidates for ultra-small photonic devices

Schönenberger

Moll

Stöferle

et al. 2008

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