Near-field scanning millimeter-wave microscope operating inside a scanning electron microscope: towards quantitative electrical nanocharacterization

Archive ouverte : Article de revue

Polovodov, Petr | Theron, Didier | Lenoir, Clément | Deresmes, D. | Eliet, Sophie | Boyaval, Christophe | Dambrine, Gilles | Haddadi, Kamel

Edité par HAL CCSD ; MDPI

International audience. The main objectives of this work are the development of fundamental extensions to the existing scanning microwave microscopy (SMM) technology to achieve quantitative complex impedance measurements at the nanoscale. We developed an SMM operating up to 67 GHz inside a scanning electron microscope giving unique advantages to tackle issues commonly found in open air SMMs. Operating in the millimeter-wave frequency range induces high collimation of the evanescent electrical fields in the vicinity of the probe apex resulting in high spatial resolution and enhanced sensitivity. Operating in vacuum allows for eliminating the water meniscus on tip apex that remains a critical issue to address modeling and quantitative analysis at the nanoscale. In addition, a microstrip probing structure has been developed to ensure a transverse electromagnetic mode as close as possible to the tip apex, reducing drastically radiation effects and parasitic apex to ground capacitances with available SMM probes. As a demonstration, we describe a standard operating procedure for instrumentation configuration, measurements and data analysis. Measurement performance is exemplary shown on a staircase microcapacitor sample at 30 GHz.

Consulter en ligne

Suggestions

Du même auteur

Operation of near-field scanning millimeter-wave microscopy up to 67 GHz under scanning electron microscopy vision | Polovodov, P

Operation of near-field scanning millimeter-wave microscopy up to 67 GHz un...

Archive ouverte: Communication dans un congrès

Polovodov, P | 2020-06-21

International audience. A near-field scanning millimeter-wave microscope is developed with broadband capabilities up to 67 GHz. The instrumentation has been designed to operate inside a scanning electron microscope ...

New Generation of On-Wafer Microwave Probe Station for Precision GSG Probing | Mokhtari, Cerine

New Generation of On-Wafer Microwave Probe Station for Precision GSG Probin...

Archive ouverte: Communication dans un congrès

Mokhtari, Cerine | 2022-09-12

International audience. Accurate characterization of emergent RF extreme impedance micro-and nanoelectronic devices requires novel probing techniques to ensure the probe-to-pad contact repeatability. In this effort,...

Combined scanning microwave and electron microscopy: a novel toolbox for hybrid nanoscale material analysis. : [Invited] | Haddadi, Kamel

Combined scanning microwave and electron microscopy: a novel toolbox for hy...

Archive ouverte: Communication dans un congrès

Haddadi, Kamel | 2017-09-20

International audience. A novel toolbox for hybrid nanoscale material characterization is presented. The system consists of a nano-robotic, compact and modular near-field scanning microwave microscope (NSMM) integra...

Du même sujet

Operation of near-field scanning millimeter-wave microscopy up to 67 GHz under scanning electron microscopy vision | Polovodov, P

Operation of near-field scanning millimeter-wave microscopy up to 67 GHz un...

Archive ouverte: Communication dans un congrès

Polovodov, P | 2020-06-21

International audience. A near-field scanning millimeter-wave microscope is developed with broadband capabilities up to 67 GHz. The instrumentation has been designed to operate inside a scanning electron microscope ...

Elaboration and characterization of porous ultrathin gold films grown by ion beam assisted deposition | Aassime, A.

Elaboration and characterization of porous ultrathin gold films grown by io...

Archive ouverte: Article de revue

Aassime, A. | 2022-09

International audience. The growth of ultrathin gold layers on a silicon substrate is performed with an unconventional ion beam assisted deposition. In this setup, evaporated gold flow and ion beam flux are perpendi...

Dispersion of surface acoustic waves in thin films at extreme wavelength-to-thickness ratios | Duquennoy, Marc

Dispersion of surface acoustic waves in thin films at extreme wavelength-to...

Archive ouverte: Article de revue

Duquennoy, Marc | 2022-10

International audience. Surface acoustic waves (SAWs) are sensitive to the presence of a layer on the surface of a material, even if this layer is extremely thin compared to their wavelengths. Given the very slow pr...

Millimeter-Wave Phased Arrays and Over-the-Air Characterization for 5G and Beyond: Overview on 5G mm-Wave Phased Arrays and OTA Characterization | Maggi, Mattia

Millimeter-Wave Phased Arrays and Over-the-Air Characterization for 5G and ...

Archive ouverte: Article de revue

Maggi, Mattia | 2022-05

International audience. Millimeter-wave (mm-wave) technology is a viable candidate to address the growing data traffic in 5G wireless communication and beyond. However, challenges related to free-space propagation l...

Silicon-based millimeter-wave devices / J.-F. Luy, P. Russer, eds. |

Silicon-based millimeter-wave devices / J.-F. Luy, P. Russer, eds.

Livre | 1994

Nano-Positioning Test platform for Free-Space Six-Port Interferometric Distance Measurements | Alsaleh, Nawal

Nano-Positioning Test platform for Free-Space Six-Port Interferometric Dist...

Archive ouverte: Communication dans un congrès

Alsaleh, Nawal | 2021-11-15

International audience. Continuous wave (CW) millimeter-wave radars have gained the interest from industry for accurate subwavelength distance measurements. In particular, the six-port radar architecture presents ad...

Chargement des enrichissements...