Your search keyword '"Meretska, M."' showing total 13 results

1. Metasurface-Stabilized Optical Microcavities

Author

Ossiander, M., Meretska, M. L., Rourke, S., Spaegele, C. M., Yin, X., Benea-Chelmus, I. C., and Capasso, F.

Subjects

Physics - Optics

Abstract

We demonstrate stable optical microcavities by counteracting the phase evolution of the cavity modes using an amorphous silicon metasurface as one of the two cavity end mirrors. Careful design allows us to limit the metasurface scattering losses at telecom wavelengths to less than 2% and using a distributed Bragg reflector as metasurface substrate ensures high reflectivity. Our first demonstration experimentally achieves telecom-wavelength microcavities with quality factors of up to 4600, spectral resonance linewidths below 0.4 nm, and mode volumes down to below 2.7$\lambda ^3$. We then show that the method introduces unprecedented freedom to stabilize modes with arbitrary transverse intensity profiles and design cavity-enhanced hologram modes. Our approach introduces the nanoscopic light control capabilities of dielectric metasurfaces to cavity electrodynamics and is directly industrially scalable using widespread semiconductor manufacturing processes., Comment: 29 pages, 6 figures

Published

2022

2. Deterministic and controllable photonic scattering media via direct laser writing

Author

Marakis, E., Uppu, R., Meretska, M. L., Gorter, K. J., Vos, W. L., and Pinkse, P. W. H.

Subjects

Physics - Optics

Abstract

Photonic scattering materials, such as biological tissue and white paper, are made of randomly positioned nanoscale inhomogeneities in refractive index that lead to multiple scattering of light. Typically these materials, both naturally-occurring or man-made, are formed through self assembly of the scattering inhomogeneities, which imposes challenges in tailoring the disorder and hence the optical properties. Here, We report on the nanofabrication of photonic scattering media using direct laser writing with deterministic design. These deterministic scattering media consist of submicron thick polymer nanorods that are randomly oriented within a cubic volume. We study the total transmission of light as a function of the number density of rods and of the sample thickness to extract the scattering and transport mean free paths using radiative transfer theory. Such photonic scattering media with deterministic and controllable properties are model systems for fundamental light scattering in particular with strong anisotropy and offer new applications in solid-state lighting and photovoltaics., Comment: 18 pages, 9 figures

Published

2020

3. Conduction band dynamics revealed by attosecond currents

Author

Ossiander, Marcus, primary, Golyari, Kehan, additional, Scharl, Kevin, additional, Floss, Isabella, additional, Smejkal, Valerie, additional, Lemell, Christoph, additional, Hampel, H. K., additional, Meretska, M. L., additional, Lim, S. W. D., additional, Knefz, N., additional, Jauk, T., additional, Capasso, F., additional, Krausz, Ferenc, additional, and Schultze, Martin, additional

Published

2024

4. Analytical modeling of light transport in scattering materials with strong absorption

Author

Meretska, M. L., Uppu, R., Vissenberg, G., Lagendijk, A., IJzerman, W. L., and Vos, W. L.

Subjects

Physics - Optics

Abstract

We have investigated the transport of light through slabs that both scatter and strongly absorb, a situation that occurs in diverse application fields ranging from biomedical optics, powder technology, to solid-state lighting. In particular, we study the transport of light in the visible wavelength range between $420$ and $700$ nm through silicone plates filled with YAG:Ce$^{3+}$ phosphor particles, that even re-emit absorbed light at different wavelengths. We measure the total transmission, the total reflection, and the ballistic transmission of light through these plates. We obtain average single particle properties namely the scattering cross-section $\sigma_s$, the absorption cross-section $\sigma_a$, and the anisotropy factor $\mu$ using an analytical approach, namely the P3 approximation to the radiative transfer equation. We verify the extracted transport parameters using Monte-Carlo simulations of the light transport. Our approach fully describes the light propagation in phosphor diffuser plates that are used in white LEDs and that reveal a strong absorption ($L/\ell_{\mathrm{a}} > 1$) up to $L/\ell_{\mathrm{a}} = 4$, where $L$ is the slab thickness, $\ell_{\mathrm{a}}$ is the absorption mean free path. In contrast, the widely used diffusion theory fails to describe this parameter range. Our approach is a suitable analytical tool for industry, since it provides a fast yet accurate determination of key transport parameters, and since it introduces predictive power into the design process of white light emitting diodes.

Published

2017

5. How to distinguish elastically scattered light from Stokes shifted light for solid-state lighting?

Author

Meretska, M., Lagendijk, A., Thyrrestrup, H., Mosk, A. P., IJzerman, W. L., and Vos, W. L.

Subjects

Physics - Optics

Abstract

We have studied the transport of light through phosphor diffuser plates that are used in commercial solid-state lighting modules (Fortimo). These polymer plates contain $\mathrm{YAG:Ce}^{+3}$ phosphor particles that elastically scatter light and Stokes shifts it in the visible wavelength range (400-700 nm). We excite the phosphor with a narrowband light source, and measure spectra of the outgoing light. The Stokes shifted light is separated from the elastically scattered light in the measured spectra and using this technique we isolate the elastic transmission of the plates. This result allows us to extract the transport mean free path $l_{\mathrm{tr}}$ over the full wavelength range by employing diffusion theory. Simultaneously, we determine the absorption mean free path $l_{\mathrm{abs}}$ in the wavelength range 400 to 530 nm where $\mathrm{YAG:Ce}^{+3}$ absorbs. The diffuse absorption $\mu_{\mathrm{a}} =\frac{1}{l_{\mathrm{abs}}}$ spectrum is qualitative similar to the absorption coefficient of $\mathrm{YAG:Ce}^{+3}$ in powder, with the $\mu_{\mathrm{a}}$ spectrum being wider than the absorption coefficient. We propose a design rule for the solid-state lighting diffuser plates.

Published

2015

6. Entanglement genesis by ancilla-based parity measurement in 2D circuit QED

Author

Saira, O. -P., Groen, J. P., Cramer, J., Meretska, M., de Lange, G., and DiCarlo, L.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics

Abstract

We present an indirect two-qubit parity meter in planar circuit quantum electrodynamics, realized by discrete interaction with an ancilla and a subsequent projective ancilla measurement with a dedicated, dispersively coupled resonator. Quantum process tomography and successful entanglement by measurement demonstrate that the meter is intrinsically quantum non-demolition. Separate interaction and measurement steps allow commencing subsequent data qubit operations in parallel with ancilla measurement, offering time savings over continuous schemes., Comment: 5 pages, 4 figures; supplemental material with 5 figures

Published

2013

7. Attosecond Currents Reveal Conduction Band Dynamics

Author

Ossiander, M., primary, Golyari, K., additional, Scharl, K., additional, Floss, I., additional, Smejkal, V., additional, Lemell, C., additional, Hampel, H. K., additional, Meretska, M. L., additional, Lim, S. W. D., additional, Knefz, N., additional, Jauk, T., additional, Capasso, F., additional, Krausz, F., additional, and Schultze, M., additional

Published

2023

8. Measurements of the magneto-optical properties of thin-film EuS at room temperature in the visible spectrum

Author

Meretska, M. L., primary, Somhorst, F. H. B., additional, Ossiander, M., additional, Hou, Y., additional, Moodera, J., additional, and Capasso, F., additional

Published

2022

9. How to distinguish elastically scattered light from Stokes shifted light for solid-state lighting?

Author

Meretska, M. L., Lagendijk, A., Thyrrestrup, H., Mosk, A. P., IJzerman, W. L., and Vos, W. L.

Subjects

*LIGHT scattering, *STOKES shift, *PHOSPHORS, *SPECTRUM analysis, *ABSORPTION coefficients, *LIGHT emitting diodes, *MONTE Carlo method

Abstract

We have studied the transport of light through phosphor diffuser plates that are used in commercial solid-state lighting modules (Fortimo). These polymer plates contain YAG:Ce+3 phosphor particles that both elastically scatter and Stokes shift light in the visible wavelength range (400–700 nm). We excite the phosphor with a narrowband light source and measure spectra of the outgoing light. The Stokes shifted light is spectrally separated from the elastically scattered light in the measured spectra, and using this technique, we isolate the elastic transmission of the plates. This result allows us to extract the transport mean free path ltr over the full wavelength range by employing diffusion theory. Simultaneously, we determine the absorption mean free path labs in the wavelength range 400 to 530 nm where YAG:Ce+3 absorbs. The diffuse absorption (µa = 1/labs) spectrum is qualitatively similar to the absorption coefficient of YAG:Ce+3 in powder, with the diffuse spectrum being wider than the absorption coefficient. We propose a design rule for the solid-state lighting diffuser plates. [ABSTRACT FROM AUTHOR]

Published

2016

10. Analytical modeling of light transport in scattering materials with strong absorption

Author

Meretska, M. L., primary, Uppu, R., additional, Vissenberg, G., additional, Lagendijk, A., additional, Ijzerman, W. L., additional, and Vos, W. L., additional

Published

2017

11. How to distinguish elastically scattered light from Stokes shifted light for solid-state lighting?

Author

Sub Nanophotonics, Nanophotonics, Meretska, M. L., Lagendijk, A., Thyrrestrup, H., Mosk, A. P., IJzerman, W. L., Vos, W.L., Sub Nanophotonics, Nanophotonics, Meretska, M. L., Lagendijk, A., Thyrrestrup, H., Mosk, A. P., IJzerman, W. L., and Vos, W.L.

Published

2016

12. Entanglement Genesis by Ancilla-Based Parity Measurement in 2D Circuit QED

Author

Saira, O.P. (author), Groen, J.P. (author), Cramer, J. (author), Meretska, M. (author), De Lange, G. (author), DiCarlo, L. (author), Saira, O.P. (author), Groen, J.P. (author), Cramer, J. (author), Meretska, M. (author), De Lange, G. (author), and DiCarlo, L. (author)

Abstract

We present an indirect two-qubit parity meter in planar circuit quantum electrodynamics, realized by discrete interaction with an ancilla and a subsequent projective ancilla measurement with a dedicated, dispersively coupled resonator. Quantum process tomography and successful entanglement by measurement demonstrate that the meter is intrinsically quantum nondemolition. Separate interaction and measurement steps allow the execution of subsequent data-qubit operations in parallel with ancilla measurement, offering time savings over continuous schemes., QN/Quantum Nanoscience, Applied Sciences

Published

2014

13. Entanglement Genesis by Ancilla-Based Parity Measurement in 2D Circuit QED

Author

Saira, O.-P., primary, Groen, J. P., additional, Cramer, J., additional, Meretska, M., additional, de Lange, G., additional, and DiCarlo, L., additional

Published

2014