Nilanthi Warnasooriya scite author profile

We report a method based on heterodyne numerical holography associated to photothermal excitation for full field and three-dimensional localisation of metallic nanoparticles. A modulated pump laser (lambda = 532 nm) heats several particles, creating local refractive index changes. This modulation is detected using a probe and a local oscillator beam (lambda = 785 nm), frequency-shifted to create a hologram beating at low frequency. Tens of particles, down to diameters of 10 nm, can be localised simultaneously and selectively in three dimensions with near- diffraction resolution by a numerical reconstruction of a single hologram acquired in 5 s.

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LED-based multi-wavelength phase imaging interference microscopy

Warnasooriya¹,

Kim²

2007

Opt. Express

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LED-based multi-wavelength phase imaging interference microscopy combines phase-shifting interferometry with multi-wavelength optical phase unwrapping. This technique consists of a Michelson-type interferometer illuminated with a LED. The reference mirror is dithered for obtaining interference images at four phase quadratures, which are then combined to calculate the phase of the object surface. The 2pi ambiguities are removed by repeating the experiment using two or more LEDs at different wavelengths, which yields phase images of effective wavelength much longer than the original. The resulting image is a profile of the object surface with a height resolution of several nanometers and range of several microns. The interferographic images using broadband sources are significantly less affected by coherent noise.

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Imaging gold nanoparticles in living cell environments using heterodyne digital holographic microscopy

Warnasooriya¹,

Joud²,

Bun³

et al. 2010

Opt. Express

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This paper describes an imaging microscopic technique based on heterodyne digital holography where subwavelengthsized gold colloids can be imaged in cell environment. Surface cellular receptors of 3T3 mouse fibroblasts are labeled with 40 nm gold nanoparticles, and the biological specimen is imaged in a total internal reflection configuration with holographic microscopy. Due to a higher scattering efficiency of the gold nanoparticles versus that of cellular structures, accurate localization of a gold marker is obtained within a 3D mapping of the entire sample's scattered field, with a lateral precision of 5 nm and 100 nm in the x,y and in the z directions respectively, demonstrating the ability of holographic microscopy to locate nanoparticles in living cells environments.

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Quantitative phase imaging using three-wavelength optical phase unwrapping

Warnasooriya

Kim

2009

Journal of Modern Optics

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Quantitative Phase Imaging Using Multi-Wavelength Optical Phase Unwrapping

Warnasooriya¹,

Myung²

2010

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