☆ 4.7 Article

Third-harmonic generation monitoring of femtosecond-laser-induced in-volume functional modifications

OPTICA (2023)

相关参考文献

注意：仅列出部分参考文献，下载原文获取全部文献信息。

Article Engineering, Electrical & Electronic

Comparison of Two in Pixel Source Follower Schemes for Deep Subelectron Noise CMOS Image Sensors

Assim Boukhayma et al.

Summary: This paper compares two designs of in-pixel source follower stages for low noise CMOS image sensors. The designs are embedded on the same chip and share the same sense node, amplification circuit and analog to digital converter. The experimental results show that the design based on PMOS source follower has lower noise compared to the design based on NMOS source follower under the same conditions.

IEEE JOURNAL OF THE ELECTRON DEVICES SOCIETY (2022)

添加到收藏夹

Article Optics

On the use of a digital twin to enhance femtosecond laser inscription of arbitrary phase patterns

Olivier Bernard et al.

Summary: The use of femtosecond lasers provides a versatile method for encoding information and modifying transparent materials with sub-micron resolution, thanks to the non-linear nature of laser-matter interaction. However, achieving repeatable and accurate results relies heavily on time-consuming machine-specific calibration and experiment-specific fine-tuning due to the complex physical processes involved.

JOURNAL OF PHYSICS-PHOTONICS (2021)

添加到收藏夹

Article Optics

Conical third harmonic generation from volume nanogratings induced by filamentation of femtosecond pulses in transparent bulk materials

Robertas Grigutis et al.

Summary: Observations of conical third harmonic emission during supercontinuum generation produced by self-focusing and filamentation of high repetition rate 180 fs, 1035 nm pulses have been reported in various nonlinear crystals and glasses. The study shows that conical third harmonic generation is a phase-matched four-wave mixing process, and the existence of a specific period required for phase matching was indirectly verified.

OPTICS EXPRESS (2021)

添加到收藏夹

Article Optics

Few pulses femtosecond laser exposure for high efficiency 3D glass micromachining

Enrico Casamenti et al.

Summary: Advanced three-dimensional manufacturing techniques are changing the traditional way of designing and producing sophisticated parts. Overcoming limitations like high-aspect-ratio structures is essential for unleashing the full potential. The use of optical non-linear absorption effects in 3D printing of glass has shown promising results in achieving unprecedented aspect ratio levels.

OPTICS EXPRESS (2021)

添加到收藏夹

Article Biochemical Research Methods

SciPy 1.0: fundamental algorithms for scientific computing in Python

Pauli Virtanen et al.

NATURE METHODS (2020)

添加到收藏夹

Article Optics

Ultralow-loss geometric phase and polarization shaping by ultrafast laser writing in silica glass

Masaaki Sakakura et al.

LIGHT-SCIENCE & APPLICATIONS (2020)

添加到收藏夹

Article Optics

Investigation of structural mechanisms of laser-written waveguide formation through third-harmonic microscopy

Jun Guan et al.

OPTICS LETTERS (2019)

添加到收藏夹

Article Optics

High-speed polarization-resolved third-harmonic microscopy

Josephine Morizet et al.

OPTICA (2019)

添加到收藏夹

Article Optics

Ultrafast laser writing quill effect in low loss waveguide fabrication regime

Jun Guan et al.

OPTICS EXPRESS (2018)

添加到收藏夹

Editorial Material Cell Biology

Third harmonic generation microscopy of cells and tissue organization

Bettina Weigelin et al.

JOURNAL OF CELL SCIENCE (2016)

添加到收藏夹

Article Physics, Applied

Generic incubation law for laser damage and ablation thresholds

Zhanliang Sun et al.

JOURNAL OF APPLIED PHYSICS (2015)

添加到收藏夹

Article Optics

A pragmatic guide to multiphoton microscope design

Michael D. Young et al.

ADVANCES IN OPTICS AND PHOTONICS (2015)

添加到收藏夹

Article Optics

Ultrafast nanoporous silica formation driven by femtosecond laser irradiation

Matthieu Lancry et al.

LASER & PHOTONICS REVIEWS (2013)

添加到收藏夹

Article Materials Science, Multidisciplinary

Investigation and control of ultrafast laser-induced isotropic and anisotropic nanoscale-modulated index patterns in bulk fused silica

R. Stoian et al.

OPTICAL MATERIALS EXPRESS (2013)

添加到收藏夹

Article Materials Science, Multidisciplinary

Refractive index profiling of direct laser written waveguides: tomographic phase imaging

A. Jesacher et al.

OPTICAL MATERIALS EXPRESS (2013)

添加到收藏夹

Article Optics

Stress distribution around femtosecond laser affected zones: effect of nanogratings orientation

Audrey Champion et al.

OPTICS EXPRESS (2013)

添加到收藏夹

Article Materials Science, Multidisciplinary

Damage and ablation thresholds of fused-silica in femtosecond regime

B. Chimier et al.

PHYSICAL REVIEW B (2011)

添加到收藏夹

Article Optics

Towards fast femtosecond laser micromachining of fused silica: The effect of deposited energy

Sheeba Rajesh et al.

OPTICS EXPRESS (2010)

添加到收藏夹

Review Optics

Femtosecond laser micromachining in transparent materials

Rafael R. Gattass et al.

NATURE PHOTONICS (2008)

添加到收藏夹

Article Optics

Nanoindentation and birefringence measurements on fused silica specimen exposed to low-energy femtosecond pulses

Yves Bellouard et al.

OPTICS EXPRESS (2006)

添加到收藏夹

Article Optics

Polarization-selective etching in femtosecond laser-assisted microfluidic channel fabrication in fused silica

C Hnatovsky et al.

OPTICS LETTERS (2005)

添加到收藏夹

Article Physics, Applied

Pulse duration dependence of femtosecond-laser-fabricated nanogratings in fused silica

C Hnatovsky et al.

APPLIED PHYSICS LETTERS (2005)

添加到收藏夹

Article Optics

Form birefringence and negative index change created by femtosecond direct writing in transparent materials

E Bricchi et al.

OPTICS LETTERS (2004)

添加到收藏夹

Article Optics

Fabrication of high-aspect ratio, micro-fluidic channels and tunnels using femtosecond laser pulses and chemical etching

Y Bellouard et al.

OPTICS EXPRESS (2004)

添加到收藏夹

Article Optics

Depth-resolved multiphoton polarization microscopy by third-harmonic generation

D Oron et al.

OPTICS LETTERS (2003)

添加到收藏夹

© Peeref 2019-2024. All rights reserved.