FDTD Modeling of Nano- and Bio-Photonic Imaging

Stoyan Tanev, Valery Tuchin, James Pond

Publikation: Bidrag til bog/antologi/rapport/konference-proceedingKonferencebidrag i proceedingsRådgivningpeer review

Resumé

In this paper we focus on the discussion of two recent unique applications of the Finite-Difference Time-Domain (FDTD) simulation method to the design and modeling of advanced nano- and bio-photonic problems. The approach that is adopted here focuses on the potential of the FDTD methodology to address newly emerging problems and not so much on its mathematical formulation. We will first discuss the application of a traditional formulation of the FDTD approach to the modeling of sub-wavelength photonics structures. Next, a modified total/scattered field FDTD approach will be applied to the modeling of biophotonics applications including Optical Phase Contrast Microscope (OPCM) imaging of cells containing gold nanoparticles (NPs) as well as its potential application as a modality for in vivo flow cytometry configurations.
OriginalsprogEngelsk
TitelAIP Conference Proceedings Tacona-Photonics 2010 : The third international workshop on theoretical and computational nanophotonics
RedaktørerDmitry Chigrin
Antal sider5
Udgivelses stedMelville, New York, USA
ForlagAmerican Institute of Physics
Publikationsdato2010
Sider30-34
ISBN (Trykt)978-0-7354-0846-3
StatusUdgivet - 2010
NavnAIP Conference Proceedings
Vol/bind1291

Fingeraftryk

photonics
formulations
cytometry
phase contrast
emerging
microscopes
methodology
gold
nanoparticles
configurations
cells
wavelengths
simulation

Citer dette

Tanev, S., Tuchin, V., & Pond, J. (2010). FDTD Modeling of Nano- and Bio-Photonic Imaging. I D. Chigrin (red.), AIP Conference Proceedings Tacona-Photonics 2010: The third international workshop on theoretical and computational nanophotonics (s. 30-34). Melville, New York, USA : American Institute of Physics. AIP Conference Proceedings , Bind. 1291
Tanev, Stoyan ; Tuchin, Valery ; Pond, James. / FDTD Modeling of Nano- and Bio-Photonic Imaging. AIP Conference Proceedings Tacona-Photonics 2010: The third international workshop on theoretical and computational nanophotonics. red. / Dmitry Chigrin. Melville, New York, USA : American Institute of Physics, 2010. s. 30-34 (AIP Conference Proceedings , Bind 1291).
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Tanev, S, Tuchin, V & Pond, J 2010, FDTD Modeling of Nano- and Bio-Photonic Imaging. i D Chigrin (red.), AIP Conference Proceedings Tacona-Photonics 2010: The third international workshop on theoretical and computational nanophotonics. American Institute of Physics, Melville, New York, USA , AIP Conference Proceedings , bind 1291, s. 30-34.

FDTD Modeling of Nano- and Bio-Photonic Imaging. / Tanev, Stoyan; Tuchin, Valery ; Pond, James.

AIP Conference Proceedings Tacona-Photonics 2010: The third international workshop on theoretical and computational nanophotonics. red. / Dmitry Chigrin. Melville, New York, USA : American Institute of Physics, 2010. s. 30-34 (AIP Conference Proceedings , Bind 1291).

Publikation: Bidrag til bog/antologi/rapport/konference-proceedingKonferencebidrag i proceedingsRådgivningpeer review

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AU - Tuchin, Valery

AU - Pond, James

PY - 2010

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N2 - In this paper we focus on the discussion of two recent unique applications of the Finite-Difference Time-Domain (FDTD) simulation method to the design and modeling of advanced nano- and bio-photonic problems. The approach that is adopted here focuses on the potential of the FDTD methodology to address newly emerging problems and not so much on its mathematical formulation. We will first discuss the application of a traditional formulation of the FDTD approach to the modeling of sub-wavelength photonics structures. Next, a modified total/scattered field FDTD approach will be applied to the modeling of biophotonics applications including Optical Phase Contrast Microscope (OPCM) imaging of cells containing gold nanoparticles (NPs) as well as its potential application as a modality for in vivo flow cytometry configurations.

AB - In this paper we focus on the discussion of two recent unique applications of the Finite-Difference Time-Domain (FDTD) simulation method to the design and modeling of advanced nano- and bio-photonic problems. The approach that is adopted here focuses on the potential of the FDTD methodology to address newly emerging problems and not so much on its mathematical formulation. We will first discuss the application of a traditional formulation of the FDTD approach to the modeling of sub-wavelength photonics structures. Next, a modified total/scattered field FDTD approach will be applied to the modeling of biophotonics applications including Optical Phase Contrast Microscope (OPCM) imaging of cells containing gold nanoparticles (NPs) as well as its potential application as a modality for in vivo flow cytometry configurations.

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SN - 978-0-7354-0846-3

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BT - AIP Conference Proceedings Tacona-Photonics 2010

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Tanev S, Tuchin V, Pond J. FDTD Modeling of Nano- and Bio-Photonic Imaging. I Chigrin D, red., AIP Conference Proceedings Tacona-Photonics 2010: The third international workshop on theoretical and computational nanophotonics. Melville, New York, USA : American Institute of Physics. 2010. s. 30-34. (AIP Conference Proceedings , Bind 1291).