Marie Verbist scite author profile

Marie Verbist

4Publications

18Citation Statements Received

27Citation Statements Given

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Affiliations

IMEC, Ghent University, Centre Hospitalier Universitaire Brugmann

Publications

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Design of Weak 1-D Bragg Grating Filters in SOI Waveguides Using Volume Holography Techniques

Verbist

Bogaerts

Thourhout

2014

J. Lightwave Technol.

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Abstract-To answer the growing need for more versatile integrated spectral filters, we show that weak one-dimensional gratings can be designed towards any desired target spectrum. We follow a very straightforward design procedure to demonstrate the performance of these devices. Measurements and simulations show a very good correspondence with the target spectra. By analyzing the results, we also found that the design procedure can be refined by using simulated reflections, instead of relying on the calculated Fresnel reflections.

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Weak gratings in silicon-on-insulator for spectral filters based on volume holography

2013

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We demonstrate integrated holographic grating filters, that can be designed towards any desired target spectrum. A straightforward design method transforms this target spectrum into a weak effective refractive index variation. The filters are implemented in high-contrast SOI by modulating the width of the shallow etched sides of a ridge waveguide. Measurements show that this is a promising approach to integrate flexible and versatile filters on photonic chips to enable more complex applications. c 2013 Optical Society of America OCIS codes: 000.0000, 999.9999.Silicon-on-Insulator (SOI) has emerged as a popular platform for photonic integrated circuits, mainly because of its high refractive index contrast and its compatibility with CMOS fabrication technology [1]. As the latter technology becomes even more refined, more functionality and complexity can be added to the photonic chips. This creates a need for more flexible and versatile spectral filters. Filters based on photonic crystals, arrayed waveguide gratings or ring resonators are well understood and have excellent performance [2, 3]. Still, even with these devices it is difficult to obtain filters with complex transfer functions.The principles of volume holography, a powerful method for encoding optical information [4], present a solution. Allowing light to travel over a large distance through a holographic grating structure, significantly increases the opportunities for light processing. The resolution of a holographic spectral filter is closely related with the scatter strength of the grating, which means a very low refractive index contrast is desirable for highresolution filters. A high-resolution holographic filter is therefore not straightforward to realize in a strong contrast material system such as SOI. In this paper we demonstrate holographic filters that were implemented by modulating the width of the shallow etched sides of an SOI ridge waveguide.The filters are designed in a very direct and elegant way, translating the targeted transfer function into a weak refractive index variation. Any grating can be represented by a variation of the effective refractive index n eff along the propagation direction x:A grating is weak if the index variation ∆n(x) is small (∆n(x) ≪ n eff,0 ). Because the scatter strength is low, it is justified to neglect second-order reflections. This means that a pulse E 0 δ(t) interacts with the grating by producing a single reflection at each point x with anα R E 0 Δn(x) at t 2n eff,0 x c = Fig. 1. The impulse response of the grating consist of one contribution from every position x. This contribution has a amplitude related to ∆n(x) and arrives at a time related to x.amplitude of E R = α R E 0 ∆n(x), where α R is a constant [5]. As indicated in Fig. 1, this reflection is delayed by a transit time of t = 2n eff,0 x c . The response to the impulse E 0 δ(t) in reflection becomes E R (t) = α R E 0 ∆n ct 2n eff,0 .The spectral transfer function of this filter can then be calculated as the Fourier transform of E R /E 0 :

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Silicon-on-Insulator-Based Retroreflective Optical Marker Chips for Simultaneous Identification and Localization

Verbist

Bogaerts

Schrauwen

et al. 2009

IEEE J. Select. Topics Quantum Electron.

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Abstract-We demonstrate an omnidirectional, retroreflective optical marker in silicon on insulator that enables simultaneous identification and localization of objects. The most important chip requirement-its retroreflectivity-is realized by a large number of equally designed reflective ring resonator circuits, which operate at different angles of the incident light. The markers are characterized by an infrared camera that captures the response during flood exposure by a tunable infrared laser.

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Low-contrast top gratings in high-contrast SOI waveguides for integrated holographic filters

Verbist

Thourhout

Bogaerts

2012

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Marie Verbist

Design of Weak 1-D Bragg Grating Filters in SOI Waveguides Using Volume Holography Techniques

Weak gratings in silicon-on-insulator for spectral filters based on volume holography

Silicon-on-Insulator-Based Retroreflective Optical Marker Chips for Simultaneous Identification and Localization

Low-contrast top gratings in high-contrast SOI waveguides for integrated holographic filters

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