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View article: Single-Mode Ring Resonator-Based Optomechanical Transducers for Advanced Atomic Force Sensing
Single-Mode Ring Resonator-Based Optomechanical Transducers for Advanced Atomic Force Sensing Open
Atomic force microscopy (AFM) is a widely used technique for high-resolution imaging and force sensing, yet its performance is fundamentally constrained by the cantilever size, spring constants, and mechanical frequencies. To overcome thes…
View article: Absorption and Dispersion: In Search of a Versatile Spectroscopic Technique
Absorption and Dispersion: In Search of a Versatile Spectroscopic Technique Open
This paper investigates three spectroscopic techniques - Tunable Diode Laser Absorption Spectroscopy (TDLAS), Wavelength Modulation Spectroscopy (WMS), and Heterodyne Phase Sensitive Dispersion Spectroscopy (HPSDS) - to evaluate their perf…
View article: Bottom-Illuminated Photothermal Nanoscale Chemical Imaging with a Flat Silicon ATR in Air and Liquid
Bottom-Illuminated Photothermal Nanoscale Chemical Imaging with a Flat Silicon ATR in Air and Liquid Open
We demonstrate a novel approach for bottom-illuminated atomic force microscopy and infrared spectroscopy (AFM-IR). Bottom-illuminated AFM-IR for measurements in liquids makes use of an attenuated total reflection setup where the developing…
View article: Bottom-illuminated photothermal nanoscale chemical imaging with a flat silicon ATR in air and liquid (data evaluation)
Bottom-illuminated photothermal nanoscale chemical imaging with a flat silicon ATR in air and liquid (data evaluation) Open
This record contains a docker image for data evaluation of AFM-IR data for our publication 'Bottom-illuminated photothermal nanoscale chemical imaging with a flat silicon ATR in air and liquid'. The evaluations can be accessed by running t…
View article: Bottom-illuminated photothermal nanoscale chemical imaging with a flat silicon ATR in air and liquid (data evaluation)
Bottom-illuminated photothermal nanoscale chemical imaging with a flat silicon ATR in air and liquid (data evaluation) Open
This record contains a docker image for data evaluation of AFM-IR data for our publication 'Bottom-illuminated photothermal nanoscale chemical imaging with a flat silicon ATR in air and liquid'. The evaluations can be accessed by running t…
View article: Bottom-illuminated photothermal nanoscale chemical imaging with a flat silicon ATR in air and liquid
Bottom-illuminated photothermal nanoscale chemical imaging with a flat silicon ATR in air and liquid Open
We demonstrate a novel approach for bottom-illuminated atomic force microscopy infrared spectroscopy (AFM-IR). This nearfield technique is suitable for AFM-IR measurements in liquids, taking advantage of an attenuated total reflection (ATR…
View article: Bottom-illuminated photothermal nanoscale chemical imaging with a flat silicon ATR in air and liquid (data evaluation)
Bottom-illuminated photothermal nanoscale chemical imaging with a flat silicon ATR in air and liquid (data evaluation) Open
This record contains a docker image for data evaluation of AFM-IR data for our publication 'Bottom-illuminated photothermal nanoscale chemical imaging with a flat silicon ATR in air and liquid'. The evaluations can be accessed by running t…
View article: Electrically driven source of time-energy entangled photons based on a self-pumped silicon microring resonator
Electrically driven source of time-energy entangled photons based on a self-pumped silicon microring resonator Open
Time-energy entangled photon pairs are fundamental resources for quantum communication protocols since they are robust against environmental fluctuations in optical fiber networks. Pair sources based on spontaneous four-wave mixing in sili…