J.G. Laufer, B. T. Cox, E.Z. Zhang, and P.C. Beard, “Quantitative determination of chromophore concentrations from 2D photoacoustic images using a nonlinear model-based inversion scheme,” Appl. Opt. 49, 1219–1233 (2010)

L. Yao, Y. Sun, and H. Jiang, “Transport-based quantitative photoacoustic tomography: simulations and experiments,” Phys. Med. Biol. 55, 1917–1934 (2010)

A.A. Oraevsky and L.V. Wang, eds., Photons Plus Ultrasound: Imaging and Sensing, Proc. SPIE 7564 (2010)

J. Alper and K. Hamad-Schifferli, ”Effect of Ligands on Thermal Dissipation from Gold Nanorods,” Langmuir 26(6), 37863789 (2010)

E.Z. Zhang, J.G. Laufer, R.B. Pedley, and P.C. Beard, “In vivo high-resolution 3D photoacoustic imaging of superficial vascular anatomy,” Phys. Med. Biol. 54, 1035–1046 (2009)

B.T. Cox, S. R. Arridge, and P.C. Beard, “Estimating chromophore distributions from multiwavelength photoacoustic images,” J. Opt. Soc. Am. A, 26, 443–455 (2009)

A. Rosenthal, D. Razansky, and V. Ntziachristos, “Quantitative Optoacoustic Signal Extraction Using Sparse Signal Representation,” IEEE Trans. Med. Imag. 28(12), 1997–2006 (2009)

B.T. Cox, J.G. Laufer, and P.C. Beard, “The challenges for quantitative photoacoustic imaging,” Proc. SPIE 7177, 717713 (2009)

J.L. Jiménez Pérez, R. Gutierrez Fuentes, J.F. Sanchez Ramirez, and A. Cruz-Orea, “Study of gold nanoparticles effect on thermal diffusivity of nanofluids based on various solvents by using thermal lens spectroscopy,” Eur. Phys. J. Special Topics 153, 159161 (2008)

B.T. Cox, S. R. Arridge, K. Köstli, and P.C. Beard, “Two-dimensional quantitative photoacoustic image reconstruction of absorption distributions in scattering media by use of a simple iterative method,” Appl. Opt. 45, 1866–1875 (2006)

H. Jiang, Z. Yuan, and X. Gu, “Spatially varying optical and acoustic property reconstruction using finite-element-based photoacoustic tomography,” J. Opt. Soc. Am. A 23(4), 878–888 (2006)

X. Wang, Y. Pang, G. Ku, X. Xie, G. Stocia, and L. V. Wang, “Noninvasive laser-induced photoacoustic tomography for structural and functional in vivo imaging of the brain”, Nature Biotech. 21(7), 803–806 (2003)

R.A. Kruger, K.D. Miller, H.E. Reynolds, W.L. Kiser, D.R. Reinecke, and G.A. Kruger, “Contrast enhancement of breast cancer in vivo using thermoacoustic CT at 434 MHz - feasibility study,” Radiology 216, 279–283 (2000)

S. Link, C. Burda, B. Nikoobakht, and M.A. El-Sayed, “Laser-induced shape changes of colloidal gold nanorods using femtosecond and nanosecond laser pulses,” J. Phys. Chem. B 104, 6152–6163 (2000)

A. Marcano, N. Melikechi, and G. Verde, “Shift of the absorption spectrum of organic dyes due to saturation,” J. Chem. Phys. 113(14), 5830–5835 (2000)

A. Mishra, R.K. Behera, P.K. Behera, B.K. Mishra, and G.B. Behera, “Cyanines during the 1990s: A review,” Chem. Rev. 100, 1973–2011 (2000)

C. Eggeling, J. Widengren, R. Rigler, and C.A.M. Seidel, “Photobleaching of Fluorescent Dyes under Conditions Used for Single-Molecule Detection: Evidence of Two-Step Photolysis,” Anal. Chem. 70(13), 2651–2659 (1998)

S.-S. Chang, C.-W. Shih, C.-D. Chen, W.-C. Lai, and C.R.C. Wang, “The Shape Transition of Gold Nanorods,” Langmuir 15(3), 701–709 (1998)

S.R. Arridge, M. Schweiger, M. Hiraoka, and D.T. Delpy, “A finite element approach for modelling photon transport in tissue,” Med. Phys. 20, 299–309 (1993)

J. Alper and K. Hamad-Schifferli, ”Effect of Ligands on Thermal Dissipation from Gold Nanorods,” Langmuir 26(6), 37863789 (2010)

B.T. Cox, S. R. Arridge, and P.C. Beard, “Estimating chromophore distributions from multiwavelength photoacoustic images,” J. Opt. Soc. Am. A, 26, 443–455 (2009)

B.T. Cox, S. R. Arridge, K. Köstli, and P.C. Beard, “Two-dimensional quantitative photoacoustic image reconstruction of absorption distributions in scattering media by use of a simple iterative method,” Appl. Opt. 45, 1866–1875 (2006)

S.R. Arridge, M. Schweiger, M. Hiraoka, and D.T. Delpy, “A finite element approach for modelling photon transport in tissue,” Med. Phys. 20, 299–309 (1993)

G. Bal and G. Uhlmann, “Inverse diffusion theory of photoacoustics,” arXiv: 0910.2503v0911 [math.AP] (2009)

J.G. Laufer, B. T. Cox, E.Z. Zhang, and P.C. Beard, “Quantitative determination of chromophore concentrations from 2D photoacoustic images using a nonlinear model-based inversion scheme,” Appl. Opt. 49, 1219–1233 (2010)

B.T. Cox, S. R. Arridge, and P.C. Beard, “Estimating chromophore distributions from multiwavelength photoacoustic images,” J. Opt. Soc. Am. A, 26, 443–455 (2009)

E.Z. Zhang, J.G. Laufer, R.B. Pedley, and P.C. Beard, “In vivo high-resolution 3D photoacoustic imaging of superficial vascular anatomy,” Phys. Med. Biol. 54, 1035–1046 (2009)

B.T. Cox, J.G. Laufer, and P.C. Beard, “The challenges for quantitative photoacoustic imaging,” Proc. SPIE 7177, 717713 (2009)

B.T. Cox, S. R. Arridge, K. Köstli, and P.C. Beard, “Two-dimensional quantitative photoacoustic image reconstruction of absorption distributions in scattering media by use of a simple iterative method,” Appl. Opt. 45, 1866–1875 (2006)

A. Mishra, R.K. Behera, P.K. Behera, B.K. Mishra, and G.B. Behera, “Cyanines during the 1990s: A review,” Chem. Rev. 100, 1973–2011 (2000)

A. Mishra, R.K. Behera, P.K. Behera, B.K. Mishra, and G.B. Behera, “Cyanines during the 1990s: A review,” Chem. Rev. 100, 1973–2011 (2000)

A. Mishra, R.K. Behera, P.K. Behera, B.K. Mishra, and G.B. Behera, “Cyanines during the 1990s: A review,” Chem. Rev. 100, 1973–2011 (2000)

S. Link, C. Burda, B. Nikoobakht, and M.A. El-Sayed, “Laser-induced shape changes of colloidal gold nanorods using femtosecond and nanosecond laser pulses,” J. Phys. Chem. B 104, 6152–6163 (2000)

S.-S. Chang, C.-W. Shih, C.-D. Chen, W.-C. Lai, and C.R.C. Wang, “The Shape Transition of Gold Nanorods,” Langmuir 15(3), 701–709 (1998)

S.-S. Chang, C.-W. Shih, C.-D. Chen, W.-C. Lai, and C.R.C. Wang, “The Shape Transition of Gold Nanorods,” Langmuir 15(3), 701–709 (1998)

B.T. Cox, S. R. Arridge, and P.C. Beard, “Estimating chromophore distributions from multiwavelength photoacoustic images,” J. Opt. Soc. Am. A, 26, 443–455 (2009)

B.T. Cox, J.G. Laufer, and P.C. Beard, “The challenges for quantitative photoacoustic imaging,” Proc. SPIE 7177, 717713 (2009)

B.T. Cox, S. R. Arridge, K. Köstli, and P.C. Beard, “Two-dimensional quantitative photoacoustic image reconstruction of absorption distributions in scattering media by use of a simple iterative method,” Appl. Opt. 45, 1866–1875 (2006)

B.T. Cox, “Quantitative Photoacoustic Tomography with Fluence-Dependent Absorbers,” in Biomedical Optics, OSA Technical Digest (CD) (Optical Society of America, 2010), paper BWG3.

J.L. Jiménez Pérez, R. Gutierrez Fuentes, J.F. Sanchez Ramirez, and A. Cruz-Orea, “Study of gold nanoparticles effect on thermal diffusivity of nanofluids based on various solvents by using thermal lens spectroscopy,” Eur. Phys. J. Special Topics 153, 159161 (2008)

S.R. Arridge, M. Schweiger, M. Hiraoka, and D.T. Delpy, “A finite element approach for modelling photon transport in tissue,” Med. Phys. 20, 299–309 (1993)

C. Eggeling, J. Widengren, R. Rigler, and C.A.M. Seidel, “Photobleaching of Fluorescent Dyes under Conditions Used for Single-Molecule Detection: Evidence of Two-Step Photolysis,” Anal. Chem. 70(13), 2651–2659 (1998)

S. Link, C. Burda, B. Nikoobakht, and M.A. El-Sayed, “Laser-induced shape changes of colloidal gold nanorods using femtosecond and nanosecond laser pulses,” J. Phys. Chem. B 104, 6152–6163 (2000)

J.L. Jiménez Pérez, R. Gutierrez Fuentes, J.F. Sanchez Ramirez, and A. Cruz-Orea, “Study of gold nanoparticles effect on thermal diffusivity of nanofluids based on various solvents by using thermal lens spectroscopy,” Eur. Phys. J. Special Topics 153, 159161 (2008)

J. Alper and K. Hamad-Schifferli, ”Effect of Ligands on Thermal Dissipation from Gold Nanorods,” Langmuir 26(6), 37863789 (2010)

S.R. Arridge, M. Schweiger, M. Hiraoka, and D.T. Delpy, “A finite element approach for modelling photon transport in tissue,” Med. Phys. 20, 299–309 (1993)

L. Yao, Y. Sun, and H. Jiang, “Transport-based quantitative photoacoustic tomography: simulations and experiments,” Phys. Med. Biol. 55, 1917–1934 (2010)

H. Jiang, Z. Yuan, and X. Gu, “Spatially varying optical and acoustic property reconstruction using finite-element-based photoacoustic tomography,” J. Opt. Soc. Am. A 23(4), 878–888 (2006)

J.L. Jiménez Pérez, R. Gutierrez Fuentes, J.F. Sanchez Ramirez, and A. Cruz-Orea, “Study of gold nanoparticles effect on thermal diffusivity of nanofluids based on various solvents by using thermal lens spectroscopy,” Eur. Phys. J. Special Topics 153, 159161 (2008)

R.A. Kruger, K.D. Miller, H.E. Reynolds, W.L. Kiser, D.R. Reinecke, and G.A. Kruger, “Contrast enhancement of breast cancer in vivo using thermoacoustic CT at 434 MHz - feasibility study,” Radiology 216, 279–283 (2000)

R.A. Kruger, K.D. Miller, H.E. Reynolds, W.L. Kiser, D.R. Reinecke, and G.A. Kruger, “Contrast enhancement of breast cancer in vivo using thermoacoustic CT at 434 MHz - feasibility study,” Radiology 216, 279–283 (2000)

R.A. Kruger, K.D. Miller, H.E. Reynolds, W.L. Kiser, D.R. Reinecke, and G.A. Kruger, “Contrast enhancement of breast cancer in vivo using thermoacoustic CT at 434 MHz - feasibility study,” Radiology 216, 279–283 (2000)

X. Wang, Y. Pang, G. Ku, X. Xie, G. Stocia, and L. V. Wang, “Noninvasive laser-induced photoacoustic tomography for structural and functional in vivo imaging of the brain”, Nature Biotech. 21(7), 803–806 (2003)

S.-S. Chang, C.-W. Shih, C.-D. Chen, W.-C. Lai, and C.R.C. Wang, “The Shape Transition of Gold Nanorods,” Langmuir 15(3), 701–709 (1998)

J.G. Laufer, B. T. Cox, E.Z. Zhang, and P.C. Beard, “Quantitative determination of chromophore concentrations from 2D photoacoustic images using a nonlinear model-based inversion scheme,” Appl. Opt. 49, 1219–1233 (2010)

E.Z. Zhang, J.G. Laufer, R.B. Pedley, and P.C. Beard, “In vivo high-resolution 3D photoacoustic imaging of superficial vascular anatomy,” Phys. Med. Biol. 54, 1035–1046 (2009)

B.T. Cox, J.G. Laufer, and P.C. Beard, “The challenges for quantitative photoacoustic imaging,” Proc. SPIE 7177, 717713 (2009)

S. Link, C. Burda, B. Nikoobakht, and M.A. El-Sayed, “Laser-induced shape changes of colloidal gold nanorods using femtosecond and nanosecond laser pulses,” J. Phys. Chem. B 104, 6152–6163 (2000)

A. Marcano, N. Melikechi, and G. Verde, “Shift of the absorption spectrum of organic dyes due to saturation,” J. Chem. Phys. 113(14), 5830–5835 (2000)

A. Marcano, N. Melikechi, and G. Verde, “Shift of the absorption spectrum of organic dyes due to saturation,” J. Chem. Phys. 113(14), 5830–5835 (2000)

R.A. Kruger, K.D. Miller, H.E. Reynolds, W.L. Kiser, D.R. Reinecke, and G.A. Kruger, “Contrast enhancement of breast cancer in vivo using thermoacoustic CT at 434 MHz - feasibility study,” Radiology 216, 279–283 (2000)

A. Mishra, R.K. Behera, P.K. Behera, B.K. Mishra, and G.B. Behera, “Cyanines during the 1990s: A review,” Chem. Rev. 100, 1973–2011 (2000)

A. Mishra, R.K. Behera, P.K. Behera, B.K. Mishra, and G.B. Behera, “Cyanines during the 1990s: A review,” Chem. Rev. 100, 1973–2011 (2000)

S. Link, C. Burda, B. Nikoobakht, and M.A. El-Sayed, “Laser-induced shape changes of colloidal gold nanorods using femtosecond and nanosecond laser pulses,” J. Phys. Chem. B 104, 6152–6163 (2000)

A. Rosenthal, D. Razansky, and V. Ntziachristos, “Quantitative Optoacoustic Signal Extraction Using Sparse Signal Representation,” IEEE Trans. Med. Imag. 28(12), 1997–2006 (2009)

X. Wang, Y. Pang, G. Ku, X. Xie, G. Stocia, and L. V. Wang, “Noninvasive laser-induced photoacoustic tomography for structural and functional in vivo imaging of the brain”, Nature Biotech. 21(7), 803–806 (2003)

E.Z. Zhang, J.G. Laufer, R.B. Pedley, and P.C. Beard, “In vivo high-resolution 3D photoacoustic imaging of superficial vascular anatomy,” Phys. Med. Biol. 54, 1035–1046 (2009)

A. Rosenthal, D. Razansky, and V. Ntziachristos, “Quantitative Optoacoustic Signal Extraction Using Sparse Signal Representation,” IEEE Trans. Med. Imag. 28(12), 1997–2006 (2009)

R.A. Kruger, K.D. Miller, H.E. Reynolds, W.L. Kiser, D.R. Reinecke, and G.A. Kruger, “Contrast enhancement of breast cancer in vivo using thermoacoustic CT at 434 MHz - feasibility study,” Radiology 216, 279–283 (2000)

R.A. Kruger, K.D. Miller, H.E. Reynolds, W.L. Kiser, D.R. Reinecke, and G.A. Kruger, “Contrast enhancement of breast cancer in vivo using thermoacoustic CT at 434 MHz - feasibility study,” Radiology 216, 279–283 (2000)

C. Eggeling, J. Widengren, R. Rigler, and C.A.M. Seidel, “Photobleaching of Fluorescent Dyes under Conditions Used for Single-Molecule Detection: Evidence of Two-Step Photolysis,” Anal. Chem. 70(13), 2651–2659 (1998)

A. Rosenthal, D. Razansky, and V. Ntziachristos, “Quantitative Optoacoustic Signal Extraction Using Sparse Signal Representation,” IEEE Trans. Med. Imag. 28(12), 1997–2006 (2009)

J.L. Jiménez Pérez, R. Gutierrez Fuentes, J.F. Sanchez Ramirez, and A. Cruz-Orea, “Study of gold nanoparticles effect on thermal diffusivity of nanofluids based on various solvents by using thermal lens spectroscopy,” Eur. Phys. J. Special Topics 153, 159161 (2008)

S.R. Arridge, M. Schweiger, M. Hiraoka, and D.T. Delpy, “A finite element approach for modelling photon transport in tissue,” Med. Phys. 20, 299–309 (1993)

C. Eggeling, J. Widengren, R. Rigler, and C.A.M. Seidel, “Photobleaching of Fluorescent Dyes under Conditions Used for Single-Molecule Detection: Evidence of Two-Step Photolysis,” Anal. Chem. 70(13), 2651–2659 (1998)

S.-S. Chang, C.-W. Shih, C.-D. Chen, W.-C. Lai, and C.R.C. Wang, “The Shape Transition of Gold Nanorods,” Langmuir 15(3), 701–709 (1998)

X. Wang, Y. Pang, G. Ku, X. Xie, G. Stocia, and L. V. Wang, “Noninvasive laser-induced photoacoustic tomography for structural and functional in vivo imaging of the brain”, Nature Biotech. 21(7), 803–806 (2003)

L. Yao, Y. Sun, and H. Jiang, “Transport-based quantitative photoacoustic tomography: simulations and experiments,” Phys. Med. Biol. 55, 1917–1934 (2010)

G. Bal and G. Uhlmann, “Inverse diffusion theory of photoacoustics,” arXiv: 0910.2503v0911 [math.AP] (2009)

A. Marcano, N. Melikechi, and G. Verde, “Shift of the absorption spectrum of organic dyes due to saturation,” J. Chem. Phys. 113(14), 5830–5835 (2000)

S.-S. Chang, C.-W. Shih, C.-D. Chen, W.-C. Lai, and C.R.C. Wang, “The Shape Transition of Gold Nanorods,” Langmuir 15(3), 701–709 (1998)

X. Wang, Y. Pang, G. Ku, X. Xie, G. Stocia, and L. V. Wang, “Noninvasive laser-induced photoacoustic tomography for structural and functional in vivo imaging of the brain”, Nature Biotech. 21(7), 803–806 (2003)

X. Wang, Y. Pang, G. Ku, X. Xie, G. Stocia, and L. V. Wang, “Noninvasive laser-induced photoacoustic tomography for structural and functional in vivo imaging of the brain”, Nature Biotech. 21(7), 803–806 (2003)

C. Eggeling, J. Widengren, R. Rigler, and C.A.M. Seidel, “Photobleaching of Fluorescent Dyes under Conditions Used for Single-Molecule Detection: Evidence of Two-Step Photolysis,” Anal. Chem. 70(13), 2651–2659 (1998)

X. Wang, Y. Pang, G. Ku, X. Xie, G. Stocia, and L. V. Wang, “Noninvasive laser-induced photoacoustic tomography for structural and functional in vivo imaging of the brain”, Nature Biotech. 21(7), 803–806 (2003)

L. Yao, Y. Sun, and H. Jiang, “Transport-based quantitative photoacoustic tomography: simulations and experiments,” Phys. Med. Biol. 55, 1917–1934 (2010)

J.G. Laufer, B. T. Cox, E.Z. Zhang, and P.C. Beard, “Quantitative determination of chromophore concentrations from 2D photoacoustic images using a nonlinear model-based inversion scheme,” Appl. Opt. 49, 1219–1233 (2010)

E.Z. Zhang, J.G. Laufer, R.B. Pedley, and P.C. Beard, “In vivo high-resolution 3D photoacoustic imaging of superficial vascular anatomy,” Phys. Med. Biol. 54, 1035–1046 (2009)

C. Eggeling, J. Widengren, R. Rigler, and C.A.M. Seidel, “Photobleaching of Fluorescent Dyes under Conditions Used for Single-Molecule Detection: Evidence of Two-Step Photolysis,” Anal. Chem. 70(13), 2651–2659 (1998)

J.G. Laufer, B. T. Cox, E.Z. Zhang, and P.C. Beard, “Quantitative determination of chromophore concentrations from 2D photoacoustic images using a nonlinear model-based inversion scheme,” Appl. Opt. 49, 1219–1233 (2010)

B.T. Cox, S. R. Arridge, K. Köstli, and P.C. Beard, “Two-dimensional quantitative photoacoustic image reconstruction of absorption distributions in scattering media by use of a simple iterative method,” Appl. Opt. 45, 1866–1875 (2006)

A. Mishra, R.K. Behera, P.K. Behera, B.K. Mishra, and G.B. Behera, “Cyanines during the 1990s: A review,” Chem. Rev. 100, 1973–2011 (2000)

J.L. Jiménez Pérez, R. Gutierrez Fuentes, J.F. Sanchez Ramirez, and A. Cruz-Orea, “Study of gold nanoparticles effect on thermal diffusivity of nanofluids based on various solvents by using thermal lens spectroscopy,” Eur. Phys. J. Special Topics 153, 159161 (2008)

A. Rosenthal, D. Razansky, and V. Ntziachristos, “Quantitative Optoacoustic Signal Extraction Using Sparse Signal Representation,” IEEE Trans. Med. Imag. 28(12), 1997–2006 (2009)

A. Marcano, N. Melikechi, and G. Verde, “Shift of the absorption spectrum of organic dyes due to saturation,” J. Chem. Phys. 113(14), 5830–5835 (2000)

H. Jiang, Z. Yuan, and X. Gu, “Spatially varying optical and acoustic property reconstruction using finite-element-based photoacoustic tomography,” J. Opt. Soc. Am. A 23(4), 878–888 (2006)

B.T. Cox, S. R. Arridge, and P.C. Beard, “Estimating chromophore distributions from multiwavelength photoacoustic images,” J. Opt. Soc. Am. A, 26, 443–455 (2009)

S. Link, C. Burda, B. Nikoobakht, and M.A. El-Sayed, “Laser-induced shape changes of colloidal gold nanorods using femtosecond and nanosecond laser pulses,” J. Phys. Chem. B 104, 6152–6163 (2000)

J. Alper and K. Hamad-Schifferli, ”Effect of Ligands on Thermal Dissipation from Gold Nanorods,” Langmuir 26(6), 37863789 (2010)

S.-S. Chang, C.-W. Shih, C.-D. Chen, W.-C. Lai, and C.R.C. Wang, “The Shape Transition of Gold Nanorods,” Langmuir 15(3), 701–709 (1998)

S.R. Arridge, M. Schweiger, M. Hiraoka, and D.T. Delpy, “A finite element approach for modelling photon transport in tissue,” Med. Phys. 20, 299–309 (1993)

X. Wang, Y. Pang, G. Ku, X. Xie, G. Stocia, and L. V. Wang, “Noninvasive laser-induced photoacoustic tomography for structural and functional in vivo imaging of the brain”, Nature Biotech. 21(7), 803–806 (2003)

E.Z. Zhang, J.G. Laufer, R.B. Pedley, and P.C. Beard, “In vivo high-resolution 3D photoacoustic imaging of superficial vascular anatomy,” Phys. Med. Biol. 54, 1035–1046 (2009)

L. Yao, Y. Sun, and H. Jiang, “Transport-based quantitative photoacoustic tomography: simulations and experiments,” Phys. Med. Biol. 55, 1917–1934 (2010)

B.T. Cox, J.G. Laufer, and P.C. Beard, “The challenges for quantitative photoacoustic imaging,” Proc. SPIE 7177, 717713 (2009)

A.A. Oraevsky and L.V. Wang, eds., Photons Plus Ultrasound: Imaging and Sensing, Proc. SPIE 7564 (2010)

R.A. Kruger, K.D. Miller, H.E. Reynolds, W.L. Kiser, D.R. Reinecke, and G.A. Kruger, “Contrast enhancement of breast cancer in vivo using thermoacoustic CT at 434 MHz - feasibility study,” Radiology 216, 279–283 (2000)

L.V. Wang, ed., Photoacoustic Imaging and Spectroscopy, CRC Press, 2009.

G. Bal and G. Uhlmann, “Inverse diffusion theory of photoacoustics,” arXiv: 0910.2503v0911 [math.AP] (2009)

B.T. Cox, “Quantitative Photoacoustic Tomography with Fluence-Dependent Absorbers,” in Biomedical Optics, OSA Technical Digest (CD) (Optical Society of America, 2010), paper BWG3.