Carl-Fredrik Carlström scite author profile

Carl-Fredrik Carlström

5Publications

93Citation Statements Received

92Citation Statements Given

How they've been cited

123

How they cite others

Affiliations

Eindhoven University of Technology, KTH Royal Institute of Technology, Kista Photonics Research Center

Publications

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Cl 2 ∕ O 2 -inductively coupled plasma etching of deep hole-type photonic crystals in InP

Carlström¹,

Karouta²,

Heijden³

et al. 2006

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Articles you may be interested inFabrication of high-aspect-ratio double-slot photonic crystal waveguide in InP heterostructure by inductively coupled plasma etching using ultra-low pressure AIP Advances 3, 022122 (2013); Smooth sidewall in InP-based photonic crystal membrane etched by N 2 -based inductively coupled plasma J. Vac. Sci. Technol. B 26, 1326 (2008); 10.1116/1.2945299Detailed analysis of the influence of an inductively coupled plasma reactive-ion etching process on the hole depth and shape of photonic crystals in In P ∕ In Ga As P

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InP-based two-dimensional photonic crystals filled with polymers

Heijden

Carlström

Snijders

et al. 2006

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Polymer filling of the air holes of indium-phosphide-based two-dimensional photonic crystals is reported. After infiltration of the holes with a liquid monomer and solidification of the infill in situ by thermal polymerization, complete filling is proven using scanning electron microscopy. Optical transmission measurements of a filled photonic crystal structure exhibit a redshift of the air band, confirming the complete filling.

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Comparative study of Cl2, Cl2∕O2, and Cl2∕N2 inductively coupled plasma processes for etching of high-aspect-ratio photonic-crystal holes in InP

Carlström

Andriesse

Karouta

et al. 2008

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An extensive investigation has been performed on inductively coupled plasma etching of InP. An important motivation for this work is the fabrication of high-aspect-ratio holes for photonic crystals. The essential chemistry is based on Cl 2 with the addition of N 2 or O 2 for sidewall passivation. The influence of different process parameters such as gas flows, temperature, pressure, ion energy, and inductively coupled plasma power on the hole geometry is presented. It is concluded that photonic crystals can be etched with Cl 2 only; however, temperature and pressure control is critical. Adding passivation gases largely broadens the window in the parameter space for hole etching. Most importantly, etching of narrow holes can be carried out at higher temperatures where the etching is mass limited and spontaneous etching of InP by Cl 2 occurs.

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Ballistic transport at room temperature in deeply etched cross-junctions

Hieke

Wesström

Forsberg

et al. 2000

Semicond. Sci. Technol.

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We measured the transmission through nanoscopic cross-junctions at variable temperature and bias. The devices were prepared by deep etching through a two-dimensional electron gas in InGaAs/InP samples. Our experiments show that the transmission characteristic is partly ballistic even at room temperature. The measurements are analysed in terms of an equivalent network, and the involved resistances are related to the electrons' mean free path. Different scattering mechanisms are considered to account for the transition from ballistic to diffusive transport.

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Sidewall roughness measurement inside photonic crystal holes by atomic force microscopy

Strasser¹,

Robin²,

Carlström³

et al. 2007

Nanotechnology

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We present a measurement technique to quantify sidewall roughness inside planar photonic crystal (PhC) holes. Atomic force microscopy is used to scan hole cross-section profiles. By fitting a circle onto each scan line and subtracting this circle from the measurement data, a quantitative value for the deviation from the ideal cylindrical hole shape is extracted. We investigate the sidewall roughness of InP-based PhC holes depending on the nitrogen content of the semiconductor etching plasma. The existence of a trade-off between hole undercut and surface roughness by optimizing the flux of nitrogen during the plasma etching of the PhC holes is confirmed. We further quantify with this technique the influence of the direct-writing of octagons instead of circles by electron-beam lithography on the measured roughness.

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