2024

He, R., Li, Y., Chen, J., & Xue, Y. (2024). Fluorescence Diffraction Tomography using Explicit Neural Fields. In arXiv [physics.optics]. http://arxiv.org/abs/2407.16657

Zepeda, D., Li, Y. & Xue, Y. Scattering compensation through Fourier-domain open-channel coupling in two-photon microscopy. arXiv [physics.optics] (2024)

Xue, Y., Boivin, J. R., Wadduwage, D. N., Park, J. K., Nedivi, E., & So, P. T. C. (2024). Multiline orthogonal scanning temporal focusing (mosTF) microscopy for scattering reduction in in vivo brain imaging. Scientific Reports, 14(1), 10954.

2023

Xue, Y. Computational multiphoton microscopy for bi-functional fluorescence and refractive index imaging (Conference Presentation). in Multiphoton Microscopy in the Biomedical Sciences XXIII vol. PC12384 PC123840B (SPIE, 2023).

Xue, Y. Light field two-photon microscopy for deep brain photostimulation and imaging. in Adaptive Optics and Wavefront Control for Biological Systems IX vol. PC12388 PC1238809 (SPIE, 2023).

2022

Xue, Y., Ren, D. & Waller, L. Three-dimensional bi-functional refractive index and fluorescence microscopy (BRIEF). Biomed. Opt. Express (2022) doi:10.1364/boe.456621

Xue, Y. Computational optics for high-throughput imaging of neural activity. Neurophotonics 9, 041408 (2022)

Xue, Y., Waller, L., Adesnik, H. & Pégard, N. Three-dimensional multi-site random access photostimulation (3D-MAP). Elife 11, e73266 (2022)

2021

Liu, A., Xue, Y.* & Waller, L. Sparse deep computer-generated holography for optical microscopy. arXiv [physics.optics] (2021) (*corresponding author)

Xue, Y., & Waller, L. Computational Hybrid Imaging: Measure Fluorescence and Refractive Index Together. Three-Dimensional and Multidimensional Microscopy: Image Acquisition and Processing XXVIII, 11649, 116490W (2021)

Zheng, C., Park, J. K., Yildirim, M., Boivin, J. R., Xue, Y., Sur, M., So, P. T. C., & Wadduwage, D. N. (2021). De-scattering with Excitation Patterning enables rapid wide-field imaging through scattering media. In Science Advances (Vol. 7, Issue 28, p. eaay5496). https://doi.org/10.1126/sciadv.aay5496

2020

Xue, Y. (2020). Three-dimensional partial coherent holography by a digital micro-mirror device (Conference Presentation). Three-Dimensional and Multidimensional Microscopy: Image Acquisition and Processing XXVII, 11245, 1124508.

2019

Xue, Y., Berry, K. P., Boivin, J. R., Rowlands, C. J., Takiguchi, Y., Nedivi, E., & So, P. T. C. Scanless volumetric imaging by selective access multifocal multiphoton microscopy. Optica vol. 6 76 (2019)

Xue, Y., Boivin, J. R., Wadduwage, D. N., Park, J. K., Nedivi, E., So, P. T. C. Multiline Orthogonal Scanning Temporal Focusing (mosTF) microscopy for reducing scattering in high-speed in vivo brain imaging, Optics and the Brain, BM3A. 7 (2019)

Wadduwage, D. N., Park, J. K., Boivin, J. R., Xue, Y., & So, P. T. C. (2019). De-scattering with Excitation Patterning (DEEP) Enables Rapid Wide-field Imaging Through Scattering Media. In arXiv [physics.optics]. arXiv. http://arxiv.org/abs/1902.10737

Wei, Z., Boivin J. R., Xue, Y., Chen, X., So, P. T. C., Nedivi, E., Wadduwage, D. N. 3D Deep Learning Enables Fast Imaging of Spines through Scattering Media by Temporal Focusing Microscopy. arXiv [eess.IV] (2019)

Park, J. K., Wadduwage, D., Xue, Yi, Nedivi, E., Rowlands, C., Berry, K., & So, P. T. C. (2019). Systems and methods to reduce scattering in temporal focusing multiphoton microscopy (WIPO Patent No. 2019148024:A1). In World Patent (No. 2019148024:A1). 

2018

Xue, Y., Berry, K. P., Boivin, J. R., Wadduwage, D., Nedivi, E., & So, P. T. C. (2018). Scattering reduction by structured light illumination in line-scanning temporal focusing microscopy. Biomed. Opt. Express, BOE 9, 5654–5666 (2018)

Xue, Y. & So, P. T. C. Three-dimensional super-resolution high-throughput imaging by structured illumination STED microscopy. Opt. Express 26, 20920–20928 (2018)

2015

Xue, Y., Rowlands, C. J. & So, P. T. C. Parallel and flexible imaging using two-photon RESOLFT microscopy with spatial light modulator control. in Multiphoton Microscopy in the Biomedical Sciences XV vol. 9329 932927 (International Society for Optics and Photonics, 2015).

2013

Gu, Z., Kuang, C., Hao, X., Xue, Y., Zheng, Z., and Liu, X. Methods for generating a dark spot using phase and polarization modulation light. Optik 124, 650–654 (2013).

Li, L., Kuang, C., Xue, Y., and Liu, X. Nano-displacement measurement based on virtual pinhole confocal method. Meas. Sci. Technol. 24, 035003 (2013).

Gu, Z., Kuang, C., Li, S., Xue, Y., Hao, X., Zheng, Z., and Liu, X. An interferential method for generating polarization-rotatable cylindrical vector beams. Opt. Commun. 286, 6–12 (2013).

2012

Xue, Y., Kuang, C., Li, S., Gu, Z. & Liu, X. Sharper fluorescent super-resolution spot generated by azimuthally polarized beam in STED microscopy. Opt. Express 20, 17653–17666 (2012)

Ku, Y., Kuang, C., Hao, X., Xue, Y., Li, H., and Liu, X. Superenhanced three-dimensional confinement of light by compound metal-dielectric microspheres. Opt. Express, 20, 16981–16991 (2012).

2011

Xue, Y., Kuang, C., Hao, X., Gu, Z., and Liu, X. A method for generating a three-dimensional dark spot using a radially polarized beam. J. Opt. 13, 125704 (2011).