Broadband Two-Dimensional Infrared Spectroscopy with Signal Detection in Visible Range by Nonlinear Chirped-Pulse Upconversion

IF 0.8 4区 物理与天体物理 Q4 OPTICS
E. A. Stepanov, G. D. Ivanov, A. N. Zhdanov, A. A. Voronin, A. S. Shvedov, I. V. Savitsky, A. A. Lanin, A. B. Fedotov
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引用次数: 0

Abstract

The paper presents a technique for broadband two-dimensional infrared spectroscopy with signal detection in visible range by nonlinear chirped-pulse upconversion. This approach helps to avoid direct measurement of the mid-infrared signal that requires cryogenic technology, and instead uses low-cost high-sensitivity multichannel silicon linear arrays. This leads to a reduction by two orders of magnitude of the measurement time of a single two-dimensional spectrum, which makes it possible to observe the fast dynamics of complex molecular compounds. The use of a quasi-phase-cycling achieved by sub-cycle delay modulation suppresses scattering background by almost two orders of magnitude and increases the measurement speed twice compared to optical chopping. Numerical simulation using the density matrix formalism and analysis of its evolution based on the solution of the Bloch–Redfield equation effectively reproduces the features of the two-dimensional infrared spectrum of inorganic octacarbonyl dicobalt compound.

Abstract Image

Abstract Image

通过非线性啁啾脉冲上转换实现可见光范围信号检测的宽带二维红外光谱技术
摘要 本文介绍了一种通过非线性啁啾脉冲上转换实现可见光范围信号检测的宽带二维红外光谱技术。这种方法有助于避免直接测量需要低温技术的中红外信号,而是使用低成本、高灵敏度的多通道硅线性阵列。这使得单个二维光谱的测量时间缩短了两个数量级,从而使观测复杂分子化合物的快速动态成为可能。通过亚周期延迟调制实现的准相位循环可将散射背景抑制近两个数量级,并将测量速度提高到光学斩波的两倍。根据布洛赫-雷德菲尔德方程的解法,利用密度矩阵形式进行数值模拟并分析其演变,有效地再现了无机八羰基二钴化合物的二维红外光谱特征。
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来源期刊
Optics and Spectroscopy
Optics and Spectroscopy 物理-光谱学
CiteScore
1.60
自引率
0.00%
发文量
55
审稿时长
4.5 months
期刊介绍: Optics and Spectroscopy (Optika i spektroskopiya), founded in 1956, presents original and review papers in various fields of modern optics and spectroscopy in the entire wavelength range from radio waves to X-rays. Topics covered include problems of theoretical and experimental spectroscopy of atoms, molecules, and condensed state, lasers and the interaction of laser radiation with matter, physical and geometrical optics, holography, and physical principles of optical instrument making.
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