https://scholar.google.com/citations?user=pl2KS-AAAAAJ&hl=en
27. H. Ruan*, J. Xu*, C. Yang, "Optical information transmission through complex scattering media with optical-channel-based intensity streaming," Nature Communications 12 (1), 1-10 (2021)
26. H. Ruan*, Y. Liu*, J. Xu, Y. Huang, C. Yang, "Fluorescence imaging through dynamic scattering media with speckle-encoded ultrasound-modulated light correlation," Nature Photonics 14 (8), 511-516 (2020)
25. Y. Liu, R. Cao, J. Xu, H. Ruan, C. Yang, "Imaging through highly scattering human skulls with ultrasound-modulated optical tomography," Opt. Lett. 45 (11), 2973-2976 (2020)
24. K. Zhu, Y. Lu, S. Zhang, H. Ruan, S. Usuki, and Y. Tan, "Ultrasound modulated laser confocal feedback imaging inside turbid media," Opt. Lett. 43, 1207 (2018).
23. M. Jang, Y. Horie, A. Shibukawa, J. Brake, Y. Liu, S. M. Kamali, A. Arbabi, H. Ruan, A. Faraon, and C. Yang, "Wavefront shaping with disorder-engineered metasurfaces," Nat. Photonics 12, 84–90 (2018).
22. Y. Liu, Y. Shen, H. Ruan, F. L. Brodie, T. T. W. Wong, C. Yang, and L. V. Wang, "Time-reversed ultrasonically encoded optical focusing through highly scattering ex vivo human cataractous lenses," J. Biomed. Opt. 23, 1 (2018).
21. H. Ruan*, J. Brake*, J. E. Robinson, Y. Liu, M. Jang, C. Xiao, C. Zhou, V. Gradinaru, and C. Yang, "Deep tissue optical focusing and optogenetic modulation with time-reversed ultrasonically encoded light," Science Advances, aao5520 (2017).
20. H. Ruan, T. Haber, Y. Liu, J. Brake, J. Kim, J. Berlin, and C. Yang, "Focusing light inside scattering media with magnetic particle guided wavefront shaping," Optica, 4 1337 (2017).
19. J. Xu, H. Ruan, Y. Liu, H. Zhou, and C. Yang, “Focusing light through scattering media by transmission matrix inversion,” Optics Express 25, 27234 (2017)
18. M. M. Qureshi, J. Brake, H.-J. Jeon, H. Ruan, Y. Liu, A. M. Safi, T. J. Eom, C. Yang, and E. Chung, "In vivo study of optical speckle decorrelation time across depths in the mouse brain," Biomedical Optics Express 8, 4855 (2017).
17. E. H. Zhou, A. Shibukawa, J. Brake, H. Ruan, and C. Yang, "Glare suppression by coherence gated negation," Optica 3, 1107 (2016).
16. H. Ruan*, M. Jang*, and C. Yang, "Optical focusing inside scattering media with time-reversed ultrasound microbubble encoded light," Nature Communications 6, 8968 (2015).
15. R. Horstmeyer*, H. Ruan*, and C. Yang*, "Guidestar-assisted wavefront-shaping methods for focusing light into biological tissue," Nature Photonics 9, 563–571 (2015).
14. D. Wang*, E. H. Zhou*, J. Brake, H. Ruan, M. Jang, and C. Yang, "Focusing through dynamic tissue with millisecond digital optical phase conjugation," Optica 2, 728–735 (2015).
13. H. Ruan, M. L. Mather, and S. P. Morgan, "Ultrasound modulated optical tomography contrast enhancement with non-linear oscillation of microbubbles," Quantitative Imaging in Medicine and Surgery 5, 9–16 (2015).
12. M. Jang*, H. Ruan*, I. M. Vellekoop, B. Judkewitz, E. Chung, and C. Yang, "Relation between speckle decorrelation and optical phase conjugation (OPC)-based turbidity suppression through dynamic scattering media: a study on in vivo mouse skin," Biomedical Optics Express 6, 72–85 (2015).
11. H. Ruan*, M. Jang*, B. Judkewitz, and C. Yang, "Iterative time-reversed ultrasonically encoded light focusing in backscattering mode," Scientific Reports 4, 7156 (2014).
10. E. H. Zhou, H. Ruan, C. Yang, and B. Judkewitz, "Focusing on moving targets through scattering samples," Optica 1, 227–232 (2014).
9. M. Jang*, H. Ruan*, H. Zhou, B. Judkewitz, and C. Yang, "Method for auto-alignment of digital optical phase conjugation systems based on digital propagation," Optics Express 22, 14054–71 (2014).
8. M. Jang, H. Ruan, B. Judkewitz, and C. Yang, "Model for estimating the penetration depth limit of the time-reversed ultrasonically encoded optical focusing technique," Optics Express 22, 5787–5807 (2014).
7. H. Ruan, M. L. Mather, and S. P. Morgan, "Pulsed ultrasound modulated optical tomography utilizing the harmonic response of lock-in detection," Applied Optics 52, 4755–62 (2013).
6. H. Ruan, M. L. Mather, and S. P. Morgan, "Pulsed ultrasound modulated optical tomography with harmonic lock-in holography detection," Journal of the Optical Society of America A 30, 1409–16 (2013).
5. H. Ruan, M. L. Mather, and S. P. Morgan, "Pulse inversion ultrasound modulated optical tomography," Optics Letters 37, 1658–60 (2012).
4. N. T. Huynh, H. Ruan, D. He, B. R. Hayes-Gill, and S. P. Morgan, "Effect of object size and acoustic wavelength on pulsed ultrasound modulated fluorescence signals," Journal of Biomedical Optics 17, 0760081 (2012).
Conference Papers
3. H. Ruan, J. Brake, J. E. Robinson, M. Jang, C. Xiao, C. Zhou, V. Gradinaru, and C. Yang, "Optogenetic Control of Neural Activity with Time-Reversed Ultrasound Encoded Light," in Optics in the Life Sciences Congress OSA, p. BrM3B.3. (2017)
2. N. T. Huynh, H. Ruan, M. L. Mather, B. R. Hayes-Gill, and S. P. Morgan, "Improving spatial resolution and contrast in ultrasound modulated optical tomography," SPIE Proceedings, 8223, 822328 (2012)
1. N. T. Huynh, N. G. Parker, D. He, H. Ruan, B. R. Hayes-Gill, M. L. Mather, J. A. Crowe, F. R. A. J. Rose, M. J. W. Povey, and S. P. Morgan, "Characterization of tissue scaffolds using optics and ultrasound," SPIE Proceedings, 7897, 789719 (2011)
*co-first authors with equal contributions.
6. H. Ruan, “Deep Tissue Optical Focusing and Optogenetic Modulation with Time-reversed Ultrasonically Encoded Light,” Biophotonics Congress: Biomedical Optics, OSA, BF3C.6. Hollywood, Florida, USA (2018)
5. H. Ruan, J. Brake, J. E. Robinson, M. Jang, C. Xiao, C. Zhou, V. Gradinaru, and C. Yang, “Optogenetic Control of Neural Activity with Time-Reversed Ultrasound Encoded Light,” in Optics in the Life Sciences Congress OSA, p. BrM3B.3. San Diego, USA (2017)
4. H. Ruan, J. Brake, M. Jang, and C. Yang, “Magnetic guidestar assisted light focusing through scattering media,” SPIE Photonics West, San Francisco, USA (2017)
3. H. Ruan, M. Jang, and C. Yang, “Focusing light in deep tissue with time-reversed ultrasound microbubble encoded light,” SPIE Photonics West, San Francisco, USA (2016)
2. H. Ruan, C. Yang, “Time-reversal optical focusing for biophotonics applications,” OSA Incubator Controlled Light Propagation through Complex Media, Washington D.C., USA (2014)
1. H. Ruan, N. T. Huynh, M. L. Mather, S. P. Morgan, “Non-linear Ultrasound Modulated Optical Tomography with Laser Speckle Detection,” Photon 12 IOP conference, Durham, UK (2012)
2. H. Ruan, M. Jang, J. Brake, E. Zhou, R. Horstmeyer, and C. Yang, “Guidestar assisted optical focusing in deep tissue,” Gordon Research Conference - Image Science, Easton, MA, USA (2016)
1. H. Ruan, M. Jang, E. H. Zhou, C. Yang, “Seeing through biological tissues with time-reversed light,” ECI Advances in Optics XIV Conference, Vail, CO, USA (2015).
2. H. Ruan, “Seeing deep into biological tissue.” Workshop at Microscopical Society of Southern California, Los Angeles, CA, July 20, 2016. http://www.msscweb.org/public/meetingdetails16.html
1. H. Ruan, “Ultrasound Modulated Optical Tomography with Digital Holography Detection” Lunchtime Seminar, the University of Nottingham, Nottingham, UK, October 31, 2012. http://optics.eee.nottingham.ac.uk/wiki/Talks_2012-2013
2. R. Horstmeyer, M. Hoffmann, H. Ruan, and C. Yang, “Wavefront shaping for deep imaging,” Book chapter in Handbook of Neurophotonics, Shy Shoham and Francesco Pavone, eds. CRC Press (2018)
1. S. P. Morgan, N. T. Huynh, H. Ruan, and F. R. A. J. Rose, “Ultrasound Modulated Optical Tomography,” Book chapter in Optical Techniques in Regenerative Medicine, S. P. Morgan, F. R. A. J. Rose, and S. J. Matcher eds. Taylor & Francis Group (2014)
8. “Non-invasive optical measurement system and method for neural decoding,” US20190336001A1.
7. “Interferometric frequency-swept source and detector in a photonic integrated circuit,” US20190336006A1.
6. “Non-invasive measurement system and method using single-shot spectral-domain interferometric near-infrared spectroscopy based on orthogonal dispersion,” US20190336060A1.
5. “Non-invasive optical detection system and method of multiple-scattered light with swept source illumination,” US20190336007A1.
4. “Spatial and temporal-based diffusive correlation spectroscopy systems and methods,” US10420498B1.
3. “Optical focusing inside scattering media with time-reversed ultrasound microbubble encoded (trume) light,” US10203274B2.
2. “Focusing light inside scattering media with magnetic particle guided wavefront shaping,” US20190064736A1.
1. “Focusing light through cataractous lenses,” US20190125583A1.