相干反斯托克斯拉曼散射(CARS)显微能够对样品的特殊化学组分进行选择性成像,无需荧光标记,在生物医学领域被广泛应用.然而,传统的CARS图像往往存在非共振背景信号.本文将基于光强传输方程的单光束相位成像技术用于CARS显微成像,来抑制CARS的非共振背景信号.该方法通过记录样品在三个相邻平面上的CARS图像,然后利用光强传输方程获取CARS光场的相位分布,最后利用共振CARS信号和非共振背景信号在相位上的差异,实现了对背景噪声的抑制.该方法无需参考光,通过三次测量可完成CARS的背景噪声抑制,具有良好的应用前景.%Coherent anti-Stokes Raman scattering (CARS) microscopy is a valuable tool for label-free imaging of biological samples,since it enables providing contrast via vibrational resonances of a specific chemical bond.However,in a conventional CARS image the Raman resonant anti-Stokes radiation is often superimposed by a nonresonant contribution arising from the electronic part of the polarization.The situation becomes worse if a sample is composed of a significant amount of water,where a strong nonresonant background over the whole image is obtained.To date,various approaches including Epi,polarization sensitive,time-resolved,and CARS phase imaging have been implemented to suppress the undesirable nonresonant background in CARS microscopy.Notably,optical heterodyne based phase imaging schemes are of particular interest due to their intrinsic ability to retrieve Im(x(3)),which is proportional to the Raman resonant signal.Nevertheless,all the reported phase imaging methods that require an independent reference wave lead to an increase in the setup complexity,thus making the measurement sensitive to external perturbations.In order to simplify the setup,single-beam scheme has also been utilized for vibrational CARS imaging by using wave-front sensors to acquire the phase of the complex anti-Stokes amplitude.However,this method demands highly accurate wave-front sensors.In this paper we present a reference-less CARS phase imaging technique to suppress nonresonant CARS background based on transport of intensity equation (TIE).Resonant CARS radiation ERCARs can be obtained when the frequency difference between the pump and Stokes beams is tuned to match a molecular vibration frequency (Raman resonant mode).In contrast,the nonresonant background ENRCARS can be obtained when the frequency difference between the pump and Stokes beams does not match a molecular vibration frequency (Raman resonant mode).Considering the fact that there is a phase shift of π/2 between the resonant and non-resonant CARS field,the phase imaging of both resonant and nonresonant CARS field can provide a background-free image.In implementation,three intensity images of the CARS field under resonant mode are recorded at three neighboring planes by moving the CCD camera along the axial direction,in the meantime,three images of the CARS field under non-resonant mode are also recorded.Considering the fact that the TIE links the intensity distributions in three neighboring planes (through which a beam transverses) with the phase distribution of the field,the phase images of the CARS field under both resonant and nonresonant modes are reconstructed from the recorded intensity images.The phase difference Ψx between the resonant CARS field and the non-resonant CARS field is calculated.Eventually,the CARS background is efficiently suppressed by using the relation IdfCARS ∝IRCARS · sin2 Ψx.Compared with conventional CARS background suppression techniques,the proposed method is robust against environmental disturbance,since it does not require an additional reference beam.Furthermore,the proposed method is easy to incorporate in a conventional CARS configuration.Therefore,the proposed method has the potential to become a versatile technique to image deep tissue with low background signal.
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