|(1)Y. Deng, Z. Luo, W. Xie, K. Wang, X. Yang, Q. Luo. Accurate quantification of fluorescent targets within turbid media based on a decoupled fluorescence Monte Carlo model. Optics Letters, 2015, 40(13): 3129-3132.
(2)W. Xie, Y. Deng*, K. Wang, X. Yang, Q. Luo. Reweighted L1 regularization for restraining artifacts in FMT reconstruction images with limited measurements. Optics Letters, 2014, 39(14):4148-4151.
(3)Y. Deng, S. Zeng, Q. Luo, Z. Zhang, L. Fu. Theoretical analysis of the effects of scatterer sizes on multiple backscattered intensity patterns of the polarized light. Optics Letters, 2008, 33(1):77-79.
(4)Y. Deng, Q. Lu, Q. Luo, S. Zeng. A third-order scattering model for the diffuse backscattering intensity patterns of polarized light from a turbid medium. Applied Physics Letters, 2006, 90,153902.
(5)Y. Deng, Q. Lu, D. Zhu, Q. Luo. Characterization of spatially-resolved diffuse backscattering Mueller matrix patterns of highly scattering media. Optics Express, 2007, 15(15): 9672-9680.
(6)X. Jiang, Y. Deng*, Z. Luo, K. Wang, L. Lian, X. Yang, I. Meglinski, Q. Luo. Evaluation of path-history-based fluorescence Monte Carlo method for photon migration in heterogeneous medium. Optics Express, 2014, 22(26): 31948-31965.
(7)X. Jiang, Y. Deng*, Z. Luo, Q. Luo. Accelerating fDOT image reconstruction based on path-history fluorescence Monte Carlo model by using three-level parallel architecture. Optics Express, 2015, 23(20): 25996-26011.
(8) L. Lian, Y. Deng*, W. Xie, G. Xu, X.Yang, Z. Zhang, Q. Luo, Enhancement of the Localization and Quantitative Performance of Fluorescence Molecular Tomography by Using Linear nBorn Method, Optics Express, 2017, 25(3): 2063-2078.
(9) L. Lian, Y. Deng*, W. Xie, G. Xu, X. Yang, Z. Zhang, Q.Luo, High-dynamic-range Fluorescence Molecular Tomography for Imaging of Fluorescent Targets with Large Concentration Differences, Optics Express, 2016, 24(17): 19920-19933.