Your search keyword '"Scarcelli G"' showing total 5 results

1. Multimodal imaging system combining optical coherence tomography and Brillouin microscopy for neural tube imaging.

Author

Ambekar YS, Singh M, Schill AW, Zhang J, Zevallos-Delgado C, Khajavi B, Aglyamov SR, Finnell RH, Scarcelli G, and Larin KV

Subjects

Animals, Mice, Multimodal Imaging, Neural Tube, Microscopy methods, Tomography, Optical Coherence methods

Abstract

To understand the dynamics of tissue stiffness during neural tube formation and closure in a murine model, we have developed a multimodal, coaligned imaging system combining optical coherence tomography (OCT) and Brillouin microscopy. Brillouin microscopy can map the longitudinal modulus of tissue but cannot provide structural images. Thus, it is limited for imaging dynamic processes such as neural tube formation and closure. To overcome this limitation, we have combined Brillouin microscopy and OCT in one coaligned instrument. OCT provided depth-resolved structural imaging with a micrometer-scale spatial resolution to guide stiffness mapping by Brillouin modality. 2D structural and Brillouin frequency shift maps were acquired of mouse embryos at gestational day (GD) 8.5, 9.5, and 10.5 with the multimodal system. The results demonstrate the capability of the system to obtain structural and stiffness information simultaneously.

Published

2022

2. Multipass etalon cascade for high-resolution parallel spectroscopy.

Author

Fiore A and Scarcelli G

Abstract

Spectral contrast, the ability to measure frequency components of vastly different intensity, is critical in optical spectroscopy. For high spectral contrast at high spectral resolution, scanning etalons are generally used, as they allow cascading multiple dispersive elements. However, scanning instruments are inherently limited in terms of acquisition speed. Here we report a single-shot cascaded spectrometer design, in which light is dispersed along a single dispersion direction at every stage and thus can be recirculated in the same etalon multiple times. Using this design principle, we demonstrate single-shot spectral measurements at sub-gigahertz resolution and unprecedented spectral contrast (∼80 d B ).

Published

2021

3. High-finesse sub-GHz-resolution spectrometer employing VIPA etalons of different dispersion.

Author

Berghaus K, Zhang J, Yun SH, and Scarcelli G

Subjects

Optical Devices, Spectrum Analysis instrumentation

Abstract

We report a novel configuration of a two-stage virtually imaged phased array spectrometer that enables high-throughput sub-GHz spectroscopy at a high finesse (>750). Two etalons with different free spectral range and different dispersion are arranged in an orthogonal direction and spread the spectrum across two dimensions, with a greatly improved rejection ratio of white-light background noise. A proof-of-concept application for Brillouin spectroscopy is demonstrated.

Published

2015

4. Sub-Rayleigh imaging via speckle illumination.

Author

Oh JE, Cho YW, Scarcelli G, and Kim YH

Subjects

Optical Imaging instrumentation, Lighting, Optical Imaging methods

Abstract

We demonstrate sub-Rayleigh limit imaging of an object via speckle illumination. Imaging beyond the conventional Rayleigh limit is achieved by illuminating the object with pseudothermal light that exhibits a random speckle pattern. An object image is reconstructed from the second-order correlation measurement and the resolution of the image, which exceeds the Rayleigh limit, is shown to be related to the size of the speckle pattern that is tied to the lateral coherence length of the pseudothermal light.

Published

2013

5. Cross-axis cascading of spectral dispersion.

Author

Scarcelli G, Kim P, and Yun SH

Subjects

Algorithms, Equipment Design, Image Enhancement methods, Image Interpretation, Computer-Assisted, Lasers, Refractometry methods, Software, Light, Optics and Photonics, Spectrophotometry methods

Abstract

We demonstrate a method of cascading multiple diffractive elements for improving the purity of spectral dispersion. The cross-axis cascade was implemented in a two-stage grating spectrograph, resulting in a hundredfold reduction of stray light and a high dynamic range up to -75 dB. The technique can be used for parallel spectral measurements and processing.

Published

2008