Zhang Delong, Slipchenko Mikhail N, Leaird Daniel E, Weiner Andrew M, Cheng Ji-Xin
Department of Chemistry, Purdue University, West Lafayette, IN 47907, USA.
Opt Express. 2013 Jun 3;21(11):13864-74. doi: 10.1364/OE.21.013864.
The stimulated Raman scattering signal is often accompanied by unwanted background arising from other pump-probe modalities. We demonstrate an approach to overcome this challenge based on spectral domain modulation, enabled by a compact, cost-effective angle-to-wavelength pulse shaper. The pulse shaper switches between two spectrally narrow windows, which are cut out of a broadband femtosecond pulse and selected for on- and off- Raman resonance excitation, at 2.1 MHz frequency for detection of stimulated Raman scattering signal. Such spectral modulation reduced the unwanted pump-probe signals by up to 20 times and enabled stimulated Raman scattering imaging of molecules in a pigmented environment.
受激拉曼散射信号通常伴随着由其他泵浦-探测模式产生的有害背景。我们展示了一种基于光谱域调制来克服这一挑战的方法,该方法由一个紧凑、经济高效的角度-波长脉冲整形器实现。该脉冲整形器在两个光谱狭窄的窗口之间切换,这两个窗口是从宽带飞秒脉冲中截取出来的,用于拉曼共振激发的开启和关闭,以2.1MHz的频率检测受激拉曼散射信号。这种光谱调制将有害的泵浦-探测信号降低了多达20倍,并实现了在有色素环境中对分子的受激拉曼散射成像。