Hyperspectral microscopy-applications of hyperspectral imaging techniques in different fields of science: a review of recent advances
Hyperspectral imaging is a powerful analytical technique that is drawing more attention
among the different disciplines due to its feasibility for in situ applications on imaging of …
among the different disciplines due to its feasibility for in situ applications on imaging of …
Hyperspectral microscopy of atomically thin materials
We introduce experimental configurations of hyperspectral microscopy employing atomically
thin materials as an example. The optical spectrum acquired from atomically thin materials …
thin materials as an example. The optical spectrum acquired from atomically thin materials …
High-throughput multimodal wide-field Fourier-transform Raman microscope
Raman microscopy is a powerful analytical technique for materials and life sciences that
enables mapping the spatial distribution of the chemical composition of a sample. State-of …
enables mapping the spatial distribution of the chemical composition of a sample. State-of …
k-Space Hyperspectral Imaging by a Birefringent Common-Path Interferometer
Fourier-plane microscopy is a powerful tool for measuring the angular optical response of a
plethora of materials and photonic devices. Among them, optical microcavities feature …
plethora of materials and photonic devices. Among them, optical microcavities feature …
[HTML][HTML] Computational based time-resolved multispectral fluorescence microscopy
Multispectral imaging and time-resolved imaging are two common acquisition schemes in
fluorescence microscopy, and their combination can be beneficial to increase specificity …
fluorescence microscopy, and their combination can be beneficial to increase specificity …
Assessment of the Crystallization Process of CaO–Al2O3–SiO2 Glass Probed with Tb3+ Luminescence
S Machida, T Yamaguchi, N Emori… - Inorganic …, 2022 - ACS Publications
The ratio of the intensity of Tb3+ fluorescence at 543 nm because of an electric dipole
transition (5D4–7F5) relative to that at 437 nm due to a magnetic dipole transition (5D3–7F4) …
transition (5D4–7F5) relative to that at 437 nm due to a magnetic dipole transition (5D3–7F4) …
Effect of carbon on the co-presence of metallic tungsten as a nucleation agent and Eu 2+ in glass: crystallization of CaO–Al 2 O 3–SiO 2 glass probed with Eu 2+ …
S Machida, N Emori, K Katsumata, K Maeda… - RSC …, 2022 - pubs.rsc.org
This study demonstrated simple redox control in glasses by improving the method used to
added glass raw materials. Specifically, the effect of carbon on the co-presence of metallic …
added glass raw materials. Specifically, the effect of carbon on the co-presence of metallic …
Large‐Scale Analysis of Defects in Atomically Thin Semiconductors using Hyperspectral Line Imaging
Point defects play a crucial role in determining the properties of atomically thin
semiconductors. This work demonstrates the controlled formation of different types of defects …
semiconductors. This work demonstrates the controlled formation of different types of defects …
Raman spectroscopy by a detector-noise-limited birefringent wedge-based Fourier transform spectrometer
R Lyu, Z Wang, A Neogi - Optics and Lasers in Engineering, 2024 - Elsevier
The development of the Fourier transform (FT) Raman spectrometer is limited by its inherent
mechanism that FT Raman are generally less sensitive than grating-based ones in the …
mechanism that FT Raman are generally less sensitive than grating-based ones in the …
Inline-delay Fourier transform imaging spectrometer for mid-IR ultrashort pulses
An inline-delay Fourier transform imaging spectrometer (iFTIS) is used to measure
spatiospectral coupling in a mid-infrared (mid-IR) optical parametric amplifier (OPA). The …
spatiospectral coupling in a mid-infrared (mid-IR) optical parametric amplifier (OPA). The …