Alexey O. Bak scite author profile

Alexey O. Bak

5Publications

32Citation Statements Received

83Citation Statements Given

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103

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Imperial College London

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Subwavelength imaging with quantum metamaterials

et al. 2012

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We study the potential of a novel "quantum metamaterial" for subwavelength imaging applications in the midinfrared. Because the layers that comprise the metamaterial have in-plane and out-of-plane dielectric responses that are determined by different physical mechanisms (Drude free electron response and quantized electronic transitions, respectively), their resonances are polarization sensitive and can be designed independently. The result is a negatively refracting anisotropic effective medium with losses, described by the figure of merit, FOM = Re(k ⊥)/Im(k ⊥) ∼ 200 (k ⊥ is the wave vector), that are significantly lower than metamaterials based on classical layered systems. We find that, with sample design parameters that are realistically achievable with conventional epitaxy technologies, it is possible to obtain negative refraction for all incident angles, and finite element modeling studies indicate that these structures can function as so-called "hyperlenses," offering low-loss ∼λ/13 spatial resolution at mid-IR wavelengths of λ ∼ 10 μm.

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Linewidth-narrowing phenomena with intersubband cavity polaritons

et al. 2014

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/npsi/ctrl?action=rtdoc&an=21272730&lang=en http://nparc.cisti-icist.nrc-cnrc.gc.ca/npsi/ctrl?action=rtdoc&an=21272730&lang=fr READ THESE TERMS AND CONDITIONS CAREFULLY BEFORE USING THIS WEBSITE.http://nparc.cisti-icist.nrc-cnrc.gc.ca/npsi/jsp/nparc_cp.jsp?lang=en Vous avez des questions? Nous pouvons vous aider. Pour communiquer directement avec un auteur, consultez la première page de la revue dans laquelle son article a été publié afin de trouver ses coordonnées. Si vous n'arrivez pas à les repérer, communiquez avec nous à PublicationsArchive-ArchivesPublications@nrc-cnrc.gc.ca. Questions?Contact the NRC Publications Archive team at PublicationsArchive-ArchivesPublications@nrc-cnrc.gc.ca. If you wish to email the authors directly, please see the first page of the publication for their contact information. NRC Publications Archive Archives des publications du CNRCThis publication could be one of several versions: author's original, accepted manuscript or the publisher's version. / La version de cette publication peut être l'une des suivantes : la version prépublication de l'auteur, la version acceptée du manuscrit ou la version de l'éditeur. For the publisher's version, please access the DOI link below./ Pour consulter la version de l'éditeur, utilisez le lien DOI ci-dessous.http://doi.org/10.1103/PhysRevB.89.205319 Physics, 89, 20, pp. 1-5, 2014-05-30 Absorption spectra of strongly coupled intersubband cavity polaritons have been measured, using a tunable midinfrared quantum cascade laser, with high angular and spectral resolution. Pronounced linewidth narrowing of the polaritons around the anticrossing was found, with polariton linewidths narrower (4.2 meV) than both the bare intersubband transition linewidth and empty cavity linewidth (6.2 and 6 meV, respectively), at room temperature. This is due to variations in the degree of spatial averaging of the in-plane quantum-well disorder as the polariton's extended coherence length is increased by the photonic coupling over the value corresponding to the bare intersubband transition coherence length. Physical Review B -Condensed Matter and Materials

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Optical chopper Q-switching for flashlamp-pumped Er,Cr:YSGG lasers

et al. 2015

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We present a novel way of Q-switching a flashlamp-pumped,  2.8 m Er,Cr:YSGG laser, wherein a rotating polygon is used as an optical chopper. Single pulse energies of ~3.8 mJ were achieved with pulsewidths of ~305 ns. The scheme benefits from the simplicity of design, and, compared with other Q-switching methods, a reduction in losses and laser damage problems from intracavity components. We also investigate the optimisation of the laser output through purging of the laser with nitrogen, and find a 29% increase in peak output energy.

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Super-resolution with a positive epsilon multi-quantum-well super-lens

Bak

Giannini

Maier

et al. 2013

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We design an anisotropic and dichroic quantum metamaterial that is able to achieve super-resolution without the need for a negative permittivity. When exploring the parameters of the structure, we take into account the limits of semiconductor fabrication technology based on quantum well stacks. By heavily doping the structure with free electrons, we infer an anisotropic effective medium with a prolate ellipsoid dispersion curve which allows for near-diffractionless propagation of light (similar to an epsilon-near-zero hyperbolic lens). This, coupled with low absorption, allows us to resolve images at the sub-wavelength scale at distances 6 times greater than equivalent natural materials.

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Ultra low-loss super-resolution with extremely anisotropic semiconductor metamaterials

Hart

Bak

Phillips

2018

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We investigate the mechanisms for the reduction of losses in doped semiconductor multilayers used for the construction of uniaxial metamaterials and show that maximizing the mean scattering time of the doped layers is key to spectrally isolating losses and maximizing anisotropy. By adjusting the layer thickness ratio of the multilayer, we show that the spectral regions of extreme anisotropy can be separated from those of high loss. Using these insights and coupled with realistic semiconductor growth parameters, we demonstrate an InAs-based superlens with an excellent loss factor α ≈ 52mm-1 and maximum perpendicular permittivity, ε⊥ > 250. By tuning the doping concentration, we show that such a system can be designed to operate anywhere in the region λ0 ≈ 5 to 25μm. We find that such a structure is capable of deep sub-wavelength imaging (< λ0/15) at superlens thicknesses up to ∼85μm (∼8λ0).

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Alexey O. Bak

Subwavelength imaging with quantum metamaterials

Linewidth-narrowing phenomena with intersubband cavity polaritons

Optical chopper Q-switching for flashlamp-pumped Er,Cr:YSGG lasers

Super-resolution with a positive epsilon multi-quantum-well super-lens

Ultra low-loss super-resolution with extremely anisotropic semiconductor metamaterials

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