A transparent broadband ultrasonic detector based on an optical micro-ring resonator for photoacoustic microscopy

Scientific Reports

Volumn 4, Issue , 2014, Pages

  Li, Hao ^a   Dong, Biqin ^a   Zhang, Zhen ^a   Zhang, Hao F ^a,b   Sun, Cheng ^a  

^a Northwestern University   (United States)

^b NORTHWESTERN UNIVERSITY   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

MICROSCOPY; PHOTOACOUSTICS; PROCEDURES; ULTRASOUND;

MICROSCOPY; PHOTOACOUSTIC TECHNIQUES; ULTRASONICS;

EID: 84897400019     PISSN: None     EISSN: 20452322     Source Type: Journal    
DOI: 10.1038/srep04496     Document Type: Article

References (54)

1. Wang, L. V. & Hu, S. Photoacoustic tomography: In vivo imaging from organelles to organs. Science 335, 1458-1462 (2012
2. Wilson, T. & Sheppard, C. Theory and Practice of Scanning Optical Microscopy (Academic Press, London, 1984
3. Denk,W., Strickler, J. H.&Webb, W. W. Two-photon laser scanning fluorescence microscopy. Science 248, 73-76 (1990
4. So, P. T. C., Dong, C. Y., Masters, B. R. & Berland, K. M. Two-photon excitation fluorescence microscopy. Annu. Rev. Biomed. Eng. 2, 399-429 (2000
5. Huang D. et al.Optical coherence tomography. Science, 254,1178-1181,(1991) (Pubitemid 21917444)
6. Hu, S., Maslov, K. & Wang, L. V. Three-dimensional optical-resolution photoacoustic microscopy. J. Vis. Exp. 3, 2729 (2011
7. Zhang, H. F., Maslov, K.&Wang, L. V. In vivo imaging of subcutaneous structures using functional photoacoustic microscopy. Nat. Protoc. 2, 797-804 (2007 (Pubitemid 46745576)
8. Gao, L., Zhang, C., Li, C. & Wang, L. V. Intracellular temperature mapping with fluorescence-assisted photoacoustic-thermometry. Appl. Phys. Lett. 102, 193705 (2013
9. Yakovlev, V. V. et al. Stimulated Raman photoacoustic imaging. Proc. Natl. Acad. Sci. USA 107, 20335-20339 (2010
10. Zhang, H. F., Maslov, K., Stoica, G. & Wang, L. V. Functional photoacoustic microscopy for high-resolution and noninvasive in vivo imaging. Nat. Biotech. 24, 848-851 (2006 (Pubitemid 44086627)
11. Jo, J., Zhang, H., Cheney, P. D. & Yang, X. Photoacoustic detection of functional responses in the motor cortex of awake behaving monkey during forelimb movement. J. Biomed. Opt. 17, 110503 (2012
12. Wang, H.-W. et al. Lable-free bond-selective imaging by listening to vibrationally excited molecules. Phys. Rev. Lett. 106, 238106 (2011
13. Xu, Z., Zhu, Q. & Wang, L. V. In vivo photoacoustic tomography of mouse cerebral edema induced by cold injury. J. Biomed. Opt. 16, 066020 (2011
14. Wang, Y. et al. In vivo integrated photoacoustic and confocal microscopy of hemoglobin oxygen saturation and oxygen partial pressure. Opt. Lett. 36, 1029-1031 (2011
15. Yao, J., Maslov, K., Zhang, Y., Xia, Y. &Wang, L. V. Label-free oxygen-metabolic photoacoustic microscopy in vivo. J. Biomed. Opt. 16, 076003 (2012
16. Zhang,H. F. et al. Collecting back-reflected photons in photoacoustic microscopy. Opt. Express 18, 1278-1282 (2010
17. Wang, Y. et al. In vivo integrated photoacoustic and confocal microscopy of hemoglobin oxygen saturation and oxygen partial pressure. Opt. Lett. 36, 1029-1031 (2011
18. Song, W. et al. integrating photoacoustic ophthalmoscopy with scanning laser ophthalmoscopy, optical coherence tomography, fluorescein angiography for multimodal retinal imaging platform. J. Biomed. Opt. 17, 061206 (2012
19. Cai, X. et al. Investigation of neovascularization in three-dimensional porous scaffolds in vivo by a combination of multiscale photoacoustic microscopy and optical coherence tomography. Tissue Eng. Part C-Methods 19, 196-204 (2013
20. Zhang, E. Z. et al. Multimodal photoacoustic and optical coherence tomography scanner using an all optical detection scheme for 3D morphological skin imaging. Biomed. Opt. Express 2, 2202-2215 (2011
21. Yuan, Y., Yang, S. & Xing, D. Preclinical photoacoustic imaging endoscope based on acousto-optic coaxial system using ring transducer array. Opt. Lett.,35, 2266-2268 (2010)
22. Kong, F. et al. High-resolution photoacoustic imaging with focused laser and ultrasonic beams. Appl. Phys. Lett. 94, 033902-033903 (2009
23. Janas, V. F. & Safari, A. Overview of fine scale piezoelectric ceramic/polymer composite processing. J. Am. Ceram. Soc. 78, 2945-2955 (1995
24. Shung, K. K., Cannata, J. M. & Zhou, Q. F. Piezoelectric materials for high frequency medical imaging applications: A review. J. Electroceram. 19, 141-147 (2007
25. Rousseau, G., Gauthier, B., Blouin, A. &Monchalin, J. P. Non-contact biomedical photoacoustic and ultrasound imaging. J. Biomed. Opt. 12, 061217 (2012
26. Beard, P. C., Perennes, F. & Mills, T. N. Transduction mechanisms of the Fabry- Perot polymer film sensing concept for wideband ultrasound detection. IEEE Trans. Ultrason., Ferroelectr., Freq. Control 46, 1575-1582 (1999 (Pubitemid 30536499)
27. Monchalin, J. P., Heon, R., Bouchard, P. & Padioleau, C. Broadband optical detection of ultrasound by optical sideband stripping with a confocal Fabry-Perot. Appl. Phys. Lett. 55, 1612-1614 (1989
28. Hamilton, J. D. & O'Donnell, M. High frequency ultrasound imaging with optical arrays. IEEE Trans. Ultrason. Ferroelectr. Freq. Control 45, 216-235 (1998 (Pubitemid 128748682)
29. Paltauf, G., Schmidt-Kloiber, H., Kostli, K. P.&Frenz, M. Optical method for twodimensional ultrasonic detection. Appl. Phys. Lett. 75, 1048-1050 (1999 (Pubitemid 129307265)
30. Boneberg, J., Briaudeau, S., Demirplak, Z., Dobler, V. & Leiderer, P. Twodimensional pressure measurements with nanosecond time resolution. Appl. Phys. A 69, S557-S560 (1999
31. Nuster, R., Paltauf, G.&Burgholzer, P. Comparison of surface plasmon resonance devices for acoustic wave detection in liquid. Opt. Express 15, 6087-6095 (2007 (Pubitemid 46752901)
32. Schilling, A., Yavas, O., Bischof, J., Boneberg, J. & Leiderer, P. Absolute pressure measurements on a nanosecond time scale using surface plasmons. Appl. Phys. Lett. 69, 4159-4161 (1996 (Pubitemid 126619284)
33. Wong, C.-l., Ho, H., Chan, K.-S., Wu, S.-Y. & Lin, C. Application of spectral surface plasmon resonance to gas pressure sensing. Opt. Eng. 44, 124403-124403 (2005
34. Chow, C. M. et al. Broadband optical ultrasound sensor with a unique open-cavity structure. J. Biomed. Opt. 16, 017001 (2011
35. Yakovlev, V. V. et al. ultrasensitive non-resonant detection of ultrasound with plasmonic metamaterials. Adv. Mater. 25, 2351-2356 (2013
36. Wild, G. & Hinckley, S. Acousto-ultrasonic optical fiber sensors: overview and state-of-the-art. IEEE Sens. J. 8, 1184-1193 (2008
37. Gallego, D.,Wang, M.,Hiltunen, J., Myllylä, R.&Lamela, H. Polymer inverted-rib optical waveguide interferometric sensor for optoacoustic imaging. Proc. SPIE 8223, 822343 (2012
38. Song, Y. J. & Peters, K. J. Self-repairing, interferometric waveguide sensor with a large strain range. Appl. Opt. 51, 6886-6895 (2012
39. Chao, C. Y., Ashkenazi, S., Huang, S. W., O'Donnell, M. & Guo, L. J. Highfrequency ultrasound sensors using polymer microring resonators. IEEE Trans. Ultrason. Ferroelectr. Freq. Control 54, 957-965 (2007
40. Xie, Z., Chen, S.-L., Ling, T., Guo, L. J., Carson, P. L. & Wang, X. Pure optical photoacoustic microscopy. Opt. Express 19, 9027-9034 (2011
41. Ling, T., Chen, S.-L. & Guo, L. J. Fabrication and characterization of high Q polymer micro-ring resonator and its application as a sensitive ultrasonic detector. Opt. Express 19, 861-869 (2011
42. Ling, T., Chen, S.-L. & Guo, L. J. High sensitivity and wide-directivity ultrasound detection using high Q polymer microring resonators. Appl. Phys. Lett. 98, 204103 (2011
43. Wang, J. et al. Saturation effect in functional photoacoustic imaging. J. Biomed. Opt. 15, 5 (2010
44. Blackstock, D. T. Fundamentals of Physical Acoustics (Wiley, NewYork, 2000
45. Xie, Z. X., Jiao, S. L., Zhang, H. F. & Puliafito, C. A. Laser-scanning opticalresolution photoacoustic microscopy. Opt. Lett. 34, 1771-1773 (2009
46. Grudinin, I. S., Ilchenko, V. S. & Maleki, L. Ultrahigh optical Q factors of crystalline resonators in the linear regime. Phys. Rev. A 74, 063806 (2006
47. Govindan, V. & Ashkenazi, S. Bragg waveguide ultrasound detectors. IEEE Trans. Ultrason. Ferroelectr. Freq. Control 59, 2304-2311 (2012
48. Westerveld, W. J. et al. Characterization of a photonic strain sensor in silicon-oninsulator technology. Opt. Lett. 37, 479-481 (2012
49. Sacher, W. D. & Poon, J. K. S. Dynamics of microring resonator modulators. Opt. Express 16, 15741-15753 (2008
50. Kalli, K. & Jackson, D. A. Analysis of the dynamic response of a ring resonator to a time-varying input signal. Opt. Lett. 18, 465-467 (1993
51. Alder, T., Stöhr, A., Heinzelmann, R. & Jäger, D. High-efficiency fiber-to-chip coupling using low-loss tapered single-mode fiber. IEEE Photonics Technol. Lett. 12, 1016-1018 (2000
52. Xu,M.&Wang, L.V. Photoacoustic imaging in biomedicine. Rev. Sci. Instrum. 77, 041101 (2006
53. http://www.acoustics.co.uk/ 54. Wang, L. V. & Wu, H.-I. Photoacoustic tomography in Biomedical Optics: Principles and Imaging. (Wiley, 2007
54. Zhang, C., Maslov, K., Yao, J. & Wang, L. V. In vivo photoacoustic microscopy with 7.6-mmaxial resolution using a commercial 125-MHz ultrasonic transducer. J. Biomed. Opt. 17, 116016 (2012)