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相关概念视频

Raman Spectroscopy Instrumentation: Overview01:26

Raman Spectroscopy Instrumentation: Overview

295
A conventional Raman spectrophotometer includes a laser source, a sample holding system, a wavelength selector, and a detector.
The monochromatic laser source, typically using visible or near-infrared radiation, generates a highly focused beam of light. This light interacts with the molecules of the sample, scattering some of the light. Liquid and gaseous samples are usually tested in ordinary glass capillaries, while solids can be analyzed as powders packed in capillaries or as potassium...
295
NMR Spectrometers: Overview01:20

NMR Spectrometers: Overview

1.0K
NMR spectrometers consist of a strong magnet, a radiofrequency transmitter, and a detector attached to a computer console for recording spectra of samples containing NMR-active nuclei. In first-generation NMR instruments called continuous-wave spectrometers, the resonance frequencies of the nuclei are determined by frequency-sweep or field-sweep methods. The magnetic field strength is fixed and the rf signal is swept in the former, while the radiofrequency signal is fixed and the magnetic field...
1.0K
NMR Spectrometers: Resolution and Error Correction01:14

NMR Spectrometers: Resolution and Error Correction

658
When magnetic nuclei in a sample achieve resonance and undergo relaxation, the signal detected in NMR is an approximately exponential free induction decay. Fourier transform of an exponential decay yields a Lorentzian peak in the frequency domain. Lorentzian peaks in an NMR spectrum are defined by their amplitude, full width at half maximum, and position, where the peak width is governed by the spin-spin relaxation time alone. In real experiments, however, the applied magnetic field is rendered...
658
Raman Spectroscopy: Overview01:20

Raman Spectroscopy: Overview

301
The underlying principle of Raman spectroscopy is based on the interaction between light and matter, specifically molecules' inelastic scattering of photons. When a monochromatic beam of light, typically from a laser source, interacts with a sample, most scattered light has the same frequency as the incident light. This is known as Rayleigh scattering.
However, a small fraction of the scattered light exhibits a frequency shift due to the exchange of energy between the incident photons and...
301
IR Spectrometers01:25

IR Spectrometers

1.1K
There are two main infrared (IR) spectrophotometers: dispersive IR spectrometers and Fourier transform infrared (FTIR) spectrometers. In a dispersive IR spectrometer, a beam of infrared radiation produced by a hot wire is divided into two parallel equal-intensity beams using mirrors. One beam passes through the sample, while another is a reference beam. The beams then move through the monochromator, which separates the radiations into a continuous spectrum of different frequencies. The...
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相关实验视频

Updated: Jun 2, 2025

Implementation of a Nonlinear Microscope Based on Stimulated Raman Scattering
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非线性记忆式计算光谱仪

Xin Li1,2,3, Jie Wang1, Feilong Yu1

  • 1State Key Laboratory of Infrared Physics, Shanghai Institute of Technical Physics, Chinese Academy of Sciences, 500 Yu-Tian Road, Shanghai, 200083, China.

Light, science & applications
|January 14, 2025
PubMed
概括
此摘要是机器生成的。

本研究介绍了一种使用非线性光子记忆器进行增强光谱学的新型计算光谱仪. 它实现了高精度和分辨率,克服了光谱仪器中小型化的挑战.

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Ultrafast Time-resolved Near-IR Stimulated Raman Measurements of Functional π-conjugate Systems
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Direct Comparison of Hyperspectral Stimulated Raman Scattering and Coherent Anti-Stokes Raman Scattering Microscopy for Chemical Imaging
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相关实验视频

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Ultrafast Time-resolved Near-IR Stimulated Raman Measurements of Functional π-conjugate Systems
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科学领域:

  • 频谱学是一种光谱学.
  • 材料科学 材料科学 材料科学
  • 纳米技术纳米技术

背景情况:

  • 光谱仪器的小型化在光谱分辨率和设备构造方面面临着挑战.
  • 传统的光谱仪受到费米水平调整性,暗流和光响应维度的限制.

研究的目的:

  • 引入一个利用非线性光子记忆器与WSe2同联接器的计算光谱仪.
  • 通过动态能量波段调制来克服传统光谱仪的局限性.
  • 为了提高设备的性能,并使紧的,高效的光谱仪器.

主要方法:

  • 使用了一种非线性光子记忆器与WSe2同联接.
  • 采用由 (Pd) 离子迁移驱动的动态能量波段调制.
  • 集成的动态调制与专门的非线性神经网络.
  • 通过第一原则计算,模拟和实验,支持Pd离子迁移的作用.

主要成果:

  • 通过Pd离子迁移实现了动态能量波段调制,克服了设备的限制.
  • 通过Pd离子迁移证明了增强设备性能.
  • 集成的memristor调制与量身定制的非线性神经网络.
  • 达到0.18nm的峰值波长精度和2nm的光谱分辨率 (630-640nm范围).

结论:

  • 开发的计算光谱仪克服了小型化光谱学的传统局限性.
  • Pd离子迁移对于提高基于memristor的光谱仪性能至关重要.
  • 该设备提供了一个多功能平台,用于在各种材料中进行紧,高效的光谱学.