Your search keyword '"Taboada-Gutiérrez, Javier"' showing total 46 results

1. Broad Spectral Tuning of Ultra-Low Loss Polaritons in a van der Waals Crystal by Intercalation

Author

Taboada-Gutiérrez, Javier, Álvarez-Pérez, Gonzalo, Duan, Jiahua, Ma, Weiliang, Crowley, Kyle, Prieto, Iván, Bylinkin, Andrei, Autore, Marta, Volkova, Halyna, Kimura, Kenta, Kimura, Tsuyoshi, Berger, M. -H., Li, Shaojuan, Bao, Qiaoliang, Gao, Xuan P. A., Errea, Ion, Nikitin, Alexey, Hillenbrand, Rainer, Martín-Sánchez, Javier, and Alonso-González, Pablo

Subjects

Physics - Optics, Condensed Matter - Materials Science

Abstract

Phonon polaritons (PhPs) -- light coupled to lattice vibrations -- in polar van der Waals (vdW) crystals are promising candidates for controlling the flow of energy at the nanoscale due to their strong field confinement, anisotropic propagation, and ultra-long lifetime in the picosecond range \cite{ref1,ref2,ref3,ref4,ref5}. However, the lack of tunability in their narrow and material-specific spectral range -- the Reststrahlen Band (RB) -- severely limits their technological implementation. Here, we demonstrate that the intercalation of Na atoms in the vdW semiconductor $\alpha$-V$_2$O$_5$ enables a broad spectral shift of RBs, and that the PhPs excited exhibit ultra-low losses (lifetime of $4 \pm 1$~ps), similar to PhPs in the non-intercalated crystal (lifetime of $6 \pm 1$ ps). We expect our intercalation method to be applicable to other vdW crystals, opening the door for the use of PhPs in broad spectral bands in the mid-infrared domain., Comment: 15 pages, 5 figures

Published

2025

2. Unveiling the Mechanism of Phonon-Polariton Damping in \alpha-MoO_3

Author

Taboada-Gutiérrez, Javier, Zhou, Yixi, Tresguerres-Mata, Ana I. F., Lanza, Christian, Martínez-Suárez, Abel, Álvarez-Pérez, Gonzalo, Duan, Jiahua, Martín, José Ignacio, Vélez, María, Prieto, Iván, Bercher, Adrien, Teyssier, Jérémie, Errea, Ion, Nikitin, Alexey Y., Martín-Sánchez, Javier, Kuzmenko, Alexey B., and Alonso-González, Pablo

Subjects

Condensed Matter - Materials Science

Abstract

Phonon polaritons (PhPs) (light coupled to lattice vibrations) in the highly anisotropic polar layered material molybdenum trioxide (\alpha-MoO_3) are currently the focus of intense research efforts due to their extreme subwavelength field confinement, directional propagation and unprecedented low losses. Nevertheless, prior research has primarily concentrated on exploiting the squeezing and steering capabilities of \alpha-MoO_3 PhPs, without inquiring much into the dominant microscopic mechanism that determines their long lifetimes, key for their implementation in nanophotonic applications. This study delves into the fundamental processes that govern PhP damping in \alpha-MoO_3 by combining ab initio calculations with scattering-type scanning near-field optical microscopy (s-SNOM) and Fourier-transform infrared (FTIR) spectroscopy measurements across a broad temperature range (from 8 to 300 K). The remarkable agreement between our theoretical predictions and experimental observations allows us to identify third-order anharmonic phonon-phonon scattering as the main damping mechanism of \alpha-MoO_3 PhPs. These findings shed light on the fundamental limits of low-loss PhPs, a crucial factor for assessing their implementation into nanophotonic devices., Comment: 24 pages, 4 figures

Published

2024

3. Terahertz Twistoptics -- engineering canalized phonon polaritons

Author

Obst, Maximilian, Nörenberg, Tobias, Álvarez-Pérez, Gonzalo, de Oliveira, Thales V. A. G., Taboada-Gutiérrez, Javier, Feres, Flávio H., Kaps, Felix G., Hatem, Osama, Luferau, Andrei, Nikitin, Alexey Y., Klopf, J. Michael, Alonso-González, Pablo, Kehr, Susanne C., and Eng, Lukas M.

Subjects

Physics - Optics, Physics - Applied Physics

Abstract

The terahertz (THz) frequency range is key to study collective excitations in many crystals and organic molecules. However, due to the large wavelength of THz radiation, the local probing of these excitations in smaller crystalline structures or few-molecular arrangements, requires sophisticated methods to confine THz light down to the nanometer length scale, as well as to manipulate such a confined radiation. For this purpose, in recent years, taking advantage of hyperbolic phonon polaritons (HPhP) in highly anisotropic van der Waals (vdW) materials has emerged as a promising approach, offering a multitude of manipulation options such as control over the wavefront shape and propagation direction. Here, we demonstrate the first THz application of twist-angle-induced HPhP manipulation, designing the propagation of confined THz radiation between 8.39 and 8.98 THz in the vdW material alpha-molybdenum trioxide ($\alpha-MoO_{3}$), hence extending twistoptics to this intriguing frequency range. Our images, recorded by near-field optical microscopy, show the frequency- and twist-angle-dependent change between hyperbolic and elliptic polariton propagation, revealing a polaritonic transition at THz frequencies. As a result, we are able to allocate canalization (highly collimated propagation) of confined THz radiation by carefully adjusting these two parameters, i.e. frequency and twist angle. Specifically, we report polariton canalization in $\alpha-MoO_{3}$ at 8.67 THz for a twist angle of 50{\deg}. Our results demonstrate an unprecedented control and the manipulation of highly-confined collective excitations at THz frequencies, offering novel possibilities for nanophotonic applications., Comment: 25 pages, 4 figures, article, submitted

Published

2023

4. Observation of naturally canalized phonon polaritons in LiV2O5 thin layers

Author

F. Tresguerres-Mata, Ana I., Lanza, Christian, Taboada-Gutiérrez, Javier, Matson, Joseph. R., Álvarez-Pérez, Gonzalo, Isobe, Masahiko, Tarazaga Martín-Luengo, Aitana, Duan, Jiahua, Partel, Stefan, Vélez, María, Martín-Sánchez, Javier, Nikitin, Alexey Y., Caldwell, Joshua D., and Alonso-González, Pablo

Published

2024

5. Negative reflection of polaritons at the nanoscale in a low-loss natural medium

Author

Alvarez-Perez, Gonzalo, Duan, Jiahua, Taboada-Gutierrez, Javier, Ou, Qingdong, Nikulina, Elizaveta, Liu, Song, Edgar, James H., Bao, Qiaoliang, Giannini, Vincenzo, Hillenbrand, Rainer, Martin-Sanchez, J., Nikitin, Alexey Y., and Alonso-Gonzalez, Pablo

Subjects

Physics - Optics

Abstract

Negative reflection occurs when light is reflected towards the same side of the normal to the boundary from which it is incident. This exotic optical phenomenon, which provides a new avenue towards light manipulation, is not only yet to be visualized in real space but remains largely unexplored both at the nanoscale and in natural media. Here, we directly visualize nanoscale-confined polaritons negatively reflecting on subwavelength mirrors fabricated in a low-loss van der Waals crystal. Our near-field nanoimaging results unveil an unconventional and broad tunability of both the polaritonic wavelength and direction of propagation upon negative reflection. Based on these findings, we introduce a novel device in nano-optics: a hyperbolic nanoresonator, in which hyperbolic polaritons with different momenta reflect back to a common point source, enhancing its intensity. These results pave the way to realize nanophotonics in low-loss natural media, providing a novel and efficient route to confine and control the flow of light at the nanoscale, key for future optical on-chip nanotechnologies.

Published

2022

6. Focusing of in-plane hyperbolic polaritons in van der Waals crystals with tailored infrared nanoantennas

Author

Martín-Sánchez, Javier, Duan, Jiahua, Taboada-Gutiérrez, Javier, Álvarez-Pérez, Gonzalo, Voronin, Kirill V., Prieto, Iván, Ma, Weiliang, Bao, Qiaoliang, Volkov, Valentyn S., Hillenbrand, Rainer, Nikitin, Alexey Y., and Alonso-González, Pablo

Subjects

Physics - Optics, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Phonon polaritons (PhPs),light coupled to lattice vibrations,with in-plane hyperbolic dispersion exhibit ray-like propagation with large wavevectors and enhanced density of optical states along certain directions on a surface. As such, they have raised a surge of interest as they promise unprecedented possibilities for the manipulation of infrared light with planar circuitry and at the nanoscale. Here, we demonstrate, for the first time, the focusing of in-plane hyperbolic PhPs propagating along thin slabs of MoO3. To that end, we developed metallic nanoantennas of convex geometries for both the efficient launching and focusing of the polaritons. Remarkably, the foci obtained exhibit enhanced near-field confinement and absorption compared to foci produced by in-plane isotropic PhPs. More intriguingly, foci sizes as small as lamdap/5 =lamda0/50 were achieved (lamdap is the polariton wavelength and lamda0 the photon wavelength). Focusing of in-plane hyperbolic polaritons introduces a first and most basic building block developing planar polariton optics utilizing in-plane anisotropic van der Waals materials and metasurfaces.

Published

2021

7. Enabling propagation of anisotropic polaritons along forbidden directions via a topological transition

Author

Duan, Jiahua, Álvarez-Pérez, Gonzalo, Voronin, Kirill V., Prieto, Iván, Taboada-Gutiérrez, Javier, Volkov, Valentyn S., Martín-Sánchez, Javier, Nikitin, Alexey Y., and Alonso-González, Pablo

Subjects

Physics - Optics

Abstract

Recent discoveries of polaritons in van der Waals (vdW) crystals with directional in-plane propagation, ultra-low losses, and broad spectral tunability have opened the door for unprecedented manipulation of the flow of light at the nanoscale. However, despite their extraordinary potential for nano-optics, these unique polaritons also present an important limitation: their directional propagation is intrinsically determined by the crystal structure of the host material, which imposes forbidden directions of propagation and hinders its control. Here, we theoretically predict and experimentally demonstrate that directional polaritons (in-plane hyperbolic phonon polaritons) in a vdW biaxial slab (alpha-phase molybdenum trioxide) can be steered along previously forbidden directions by inducing an optical topological transition, which naturally emerges when placing the slab on a substrate with a given negative permittivity (4H-SiC). Importantly, due to the low-loss nature of this topological transition, we are able to visualize in real space exotic intermediate polaritonic states between mutually orthogonal hyperbolic regimes, which permit to unveil the unique topological origin of the transition. This work provides new insights into the emergence of low-loss optical topological transitions in vdW crystals, offering a novel route to efficiently steer the flow of energy at the nanoscale.

Published

2021

8. Nanoscale-confined Terahertz Polaritons in a van der Waals Crystal

Author

de Oliveira, Thales V. A. G., Nörenberg, Tobias, Álvarez-Pérez, Gonzalo, Wehmeier, Lukas, Taboada-Gutiérrez, Javier, Obst, Maximilian, Hempel, Franz, Lee, Eduardo J. H., Klopf, John M., Errea, Ion, Nikitin, Alexey Y., Kehr, Susanne C., Alonso-Gonzaléz, Pablo, and Eng, Lukas M.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Physics - Optics

Abstract

Electromagnetic field confinement is crucial for nanophotonic technologies, since it allows for enhancing light-matter interactions, thus enabling light manipulation in deep sub-wavelength scales. In the terahertz (THz) spectral range, radiation confinement is conventionally achieved with specially designed metallic structures - such as antennas or nanoslits - with large footprints due to the rather long wavelengths of THz radiation. In this context, phonon polaritons - light coupled to lattice vibrations - in van der Waals (vdW) crystals have emerged as a promising solution for controlling light beyond the diffraction limit, as they feature extreme field confinements and low optical losses. However, experimental demonstration of nanoscale-confined phonon polaritons at THz frequencies has so far remained elusive. Here, we provide it by employing scattering-type scanning near-field optical microscopy (s-SNOM) combined with a free-electron laser (FEL) to reveal a range of low-loss polaritonic excitations at frequencies from 8 to 12 THz in the vdW semiconductor ${\alpha}-MoO_3$. We visualize THz polaritons with i) in-plane hyperbolic dispersion, ii) extreme nanoscale field confinement (below ${\lambda}_o/75$) and iii) long polariton lifetimes, with a lower limit of > 2 ps.

Published

2020

9. Twisted Nano-optics: Manipulating Light at the Nanoscale with Twisted Phonon Polaritonic Slabs

Author

Duan, Jiahua, Capote-Robayna, Nathaniel, Taboada-Gutierrez, Javier, Alvarez-Perez, Gonzalo, Prieto, Ivan, Martin-Sanchez, Javier, Nikitin, Alexey Y., and Alonso-Gonzalez, Pablo

Subjects

Physics - Optics, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Recent discoveries have shown that when two layers of van der Waals (vdW) materials are superimposed with a relative twist angle between their respective in-plane principal axes, the electronic properties of the coupled system can be dramatically altered. Here, we demonstrate that a similar concept can be extended to the optics realm, particularly to propagating polaritons, hybrid light-matter interactions. To do this, we fabricate stacks composed of two twisted slabs of a polar vdW crystal (MoO3) supporting low-loss anisotropic phonon polaritons (PhPs), and image the propagation of the latter when launched by localized sources (metal antennas). Our images reveal that under a critical angle the PhPs isofrequency curve (determining the PhPs momentum at a fixed frequency) undergoes a topological transition. Remarkably, at this angle, the propagation of PhPs is strongly guided along predetermined directions (canalization regime) with no geometrical spreading (diffraction-less). These results demonstrate a new degree of freedom (twist angle) for controlling the propagation of polaritons at the nanoscale with potential for nano-imaging, (bio)-sensing, quantum applications and heat management.

Published

2020

10. Infrared permittivity of the biaxial van der Waals semiconductor $\alpha$-MoO$_3$ from near- and far-field correlative studies

Author

Álvarez-Pérez, Gonzalo, Folland, Thomas G., Errea, Ion, Taboada-Gutiérrez, Javier, Duan, Jiahua, Martín-Sánchez, Javier, Tresguerres-Mata, Ana I. F., Matson, Joseph R., Bylinkin, Andrei, He, Mingze, Ma, Weiliang, Bao, Qiaoliang, Martín, José Ignacio, Caldwell, Joshua D., Nikitin, Alexey Y., and Alonso-González, Pablo

Subjects

Physics - Applied Physics, Condensed Matter - Materials Science

Abstract

The biaxial van der Waals semiconductor $\alpha$-phase molybdenum trioxide ($\alpha$-MoO$_3$) has recently received significant attention due to its ability to support highly anisotropic phonon polaritons (PhPs) -infrared (IR) light coupled to lattice vibrations in polar materials-, offering an unprecedented platform for controlling the flow of energy at the nanoscale. However, to fully exploit the extraordinary IR response of this material, an accurate dielectric function is required. Here, we report the accurate IR dielectric function of $\alpha$-MoO$_3$ by modelling far-field, polarized IR reflectance spectra acquired on a single thick flake of this material. Unique to our work, the far-field model is refined by contrasting the experimental dispersion and damping of PhPs, revealed by polariton interferometry using scattering-type scanning near-field optical microscopy (s-SNOM) on thin flakes of $\alpha$-MoO$_3$, with analytical and transfer-matrix calculations, as well as full-wave simulations. Through these correlative efforts, exceptional quantitative agreement is attained to both far- and near-field properties for multiple flakes, thus providing strong verification of the accuracy of our model, while offering a novel approach to extracting dielectric functions of nanomaterials, usually too small or inhomogeneous for establishing accurate models only from standard far-field methods. In addition, by employing density functional theory (DFT), we provide insights into the various vibrational states dictating our dielectric function model and the intriguing optical properties of $\alpha$-MoO$_3$.

Published

2019

11. Strain-tunable Single Photon Sources in WSe2 Monolayers

Author

Iff, Oliver, Tedeschi, Davide, Martín-Sánchez, Javier, Moczała-Dusanowska, Magdalena, Tongay, Sefaattin, Yumigeta, Kentaro, Taboada-Gutiérrez, Javier, Savaresi, Matteo, Rastelli, Armando, Alonso-González, Pablo, Höfling, Sven, Trotta, Rinaldo, and Schneider, Christian

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Optics

Abstract

The appearance of single photon sources in atomically thin semiconductors holds great promises for the development of a flexible and ultra-compact quantum technology, in which elastic strain engineering can be used to tailor their emission properties. Here, we show a compact and hybrid 2D-semiconductor-piezoelectric device that allows for controlling the energy of single photons emitted by quantum emitters localized in wrinkled WSe2 monolayers. We demonstrate that strain fields exerted by the piezoelectric device can be used to tune the energy of localized excitons in WSe2 up to 18 meV in a reversible manner, while leaving the single photon purity unaffected over a wide range. Interestingly, we find that the magnitude and in particular the sign of the energy shift as a function of stress is emitter dependent. With the help of finite element simulations we suggest a simple model that explains our experimental observations and, furthermore, discloses that the type of strain (tensile or compressive) experienced by the quantum emitters strongly depends on their localization across the wrinkles. Our findings are of strong relevance for the practical implementation of single photon devices based on two-dimensional materials as well as for understanding the effects of strain on their emission properties.

Published

2019

12. Unveiling the Mechanism of Phonon-Polariton Damping in α‑MoO3.

Author

Taboada-Gutiérrez, Javier, Zhou, Yixi, Tresguerres-Mata, Ana I. F., Lanza, Christian, Martínez-Suárez, Abel, Álvarez-Pérez, Gonzalo, Duan, Jiahua, Martín, José Ignacio, Vélez, María, Prieto, Iván, Bercher, Adrien, Teyssier, Jérémie, Errea, Ion, Nikitin, Alexey Y., Martín-Sánchez, Javier, Kuzmenko, Alexey B., and Alonso-González, Pablo

Published

2024

13. In-plane anisotropic and ultra-low-loss polaritons in a natural van der Waals crystal

Author

Ma, Weiliang, Alonso-González, Pablo, Li, Shaojuan, Nikitin, Alexey Y., Yuan, Jian, Martín-Sánchez, Javier, Taboada-Gutiérrez, Javier, Amenabar, Iban, Li, Peining, Vélez, Saül, Tollan, Christopher, Dai, Zhigao, Zhang, Yupeng, Sriram, Sharath, Kalantar-Zadeh, Kourosh, Lee, Shuit-Tong, Hillenbrand, Rainer, and Bao, Qiaoliang

Published

2018

14. On the Large Near-Field Enhancement on Nanocolumnar Gold Substrates

Author

Díaz-Núñez, Pablo, García-Martín, José Miguel, González, María Ujué, González-Arrabal, Raquel, Rivera, Antonio, Alonso-González, Pablo, Martín-Sánchez, Javier, Taboada-Gutiérrez, Javier, González-Rubio, Guillermo, Guerrero-Martínez, Andrés, Bañares, Luis, and Peña-Rodríguez, Ovidio

Published

2019

15. Supporting Information for 'Terahertz twistoptics-engineering canalized phonon polaritons'

Author

Obst, Maximilian, Nörenberg, Tobias, Álvarez-Pérez, Gonzalo, Oliveira, Thales V. A. G. de, Taboada-Gutiérrez, Javier, Feres, Flávio H., Kaps, Felix G., Hatem, Osama, Luferau, Andrei, Nikitin, Alexey Y., Klopf, J. Michael, Alonso-González, Pablo, Kehr, Susanne C., Eng, Lukas M., Obst, Maximilian, Nörenberg, Tobias, Álvarez-Pérez, Gonzalo, Oliveira, Thales V. A. G. de, Taboada-Gutiérrez, Javier, Feres, Flávio H., Kaps, Felix G., Hatem, Osama, Luferau, Andrei, Nikitin, Alexey Y., Klopf, J. Michael, Alonso-González, Pablo, Kehr, Susanne C., and Eng, Lukas M.

Published

2023

16. Observation of naturally canalized phonon polaritons in LiV2O5 thin layers.

Author

F. Tresguerres-Mata, Ana I., Lanza, Christian, Taboada-Gutiérrez, Javier, Matson, Joseph. R., Álvarez-Pérez, Gonzalo, Isobe, Masahiko, Tarazaga Martín-Luengo, Aitana, Duan, Jiahua, Partel, Stefan, Vélez, María, Martín-Sánchez, Javier, Nikitin, Alexey Y., Caldwell, Joshua D., and Alonso-González, Pablo

Subjects

PHONONS, GROUP velocity, ELECTROMAGNETIC waves, OPTICAL waveguides, POLARITONS, LIGHT propagation, PHOTONIC crystal fibers

Abstract

Polariton canalization is characterized by intrinsic collimation of energy flow along a single crystalline axis. This optical phenomenon has been experimentally demonstrated at the nanoscale by stacking and twisting van der Waals (vdW) layers of α-MoO3, by combining α-MoO3 and graphene, or by fabricating an h-BN metasurface. However, these material platforms have significant drawbacks, such as complex fabrication and high optical losses in the case of metasurfaces. Ideally, it would be possible to canalize polaritons "naturally" in a single pristine layer. Here, we theoretically predict and experimentally demonstrate naturally canalized phonon polaritons (PhPs) in a single thin layer of the vdW crystal LiV2O5. In addition to canalization, PhPs in LiV2O5 exhibit strong field confinement ( λ p ~ λ 0 27 ), slow group velocity (0.0015c), and ultra-low losses (lifetimes of 2 ps). Our findings are promising for the implementation of low-loss optical nanodevices where strongly directional light propagation is needed, such as waveguides or optical routers. Canalized polaritons are light-matter excitations characterized by intrinsic collimation of electromagnetic energy along a specific crystal axis. Here, the authors report the observation of intrinsically canalized phonon polaritons in a single thin layer of a van der Waals crystal, LiV2O5. [ABSTRACT FROM AUTHOR]

Published

2024

17. Negative reflection of nanoscale-confined polaritons in a low-loss natural medium

Author

Álvarez-Pérez, Gonzalo, primary, Duan, Jiahua, additional, Taboada-Gutiérrez, Javier, additional, Ou, Qingdong, additional, Nikulina, Elizaveta, additional, Liu, Song, additional, Edgar, James H., additional, Bao, Qiaoliang, additional, Giannini, Vincenzo, additional, Hillenbrand, Rainer, additional, Martín-Sánchez, Javier, additional, Nikitin, Alexey Yu, additional, and Alonso-González, Pablo, additional

Published

2022

18. Twist-tunable polaritonic nanoresonators in a van der Waals crystal

Author

Nikitin, Alexey, primary, Matveeva, Olga, additional, Tresguerres-Mata, Ana I. F., additional, Kirtaev, Roman, additional, Voronin, Kirill, additional, Taboada-Gutiérrez, Javier, additional, Lanza-García, Christian, additional, Duan, Jiahua, additional, Martín-Sánchez, Javier, additional, Volkov, Valentin, additional, and Alonso-González, Pablo, additional

Published

2022

19. Nano-óptica con Fonon-Polaritones en materiales de Van de Waals

Author

Taboada Gutiérrez, Javier, Alonso González, Pablo, Martín Sánchez, Javier, and Física, Departamento de

Subjects

Trióxido de molibdeno, Materiales polares

Abstract

Tesis doctoral con mención internacional

Published

2022

20. Active and passive tuning of ultranarrow resonances in polaritonic nanoantennas

Author

Ministerio de Ciencia, Innovación y Universidades (España), European Commission, Agencia Estatal de Investigación (España), European Research Council, Principado de Asturias, Eusko Jaurlaritza, National Science Foundation (US), Gordon and Betty Moore Foundation, Ministerio de Ciencia e Innovación (España), Ministerio de Economía y Competitividad (España), Duan, Jiahua, Alfaro-Mozaz, F. J., Taboada-Gutiérrez, Javier, Dolado, Irene, Álvarez-Pérez, Gonzalo, Titova, Elena, Bylinkin, Andrei, Tresguerres-Mata, Ana I. F., Martín-Sánchez, Javier, Edgar, James H., Bandurin, Denis A., Jarillo-Herrero, Pablo, Hillenbrand, Rainer, Nikitin, Alexey Y., Alonso-González, Pablo, Ministerio de Ciencia, Innovación y Universidades (España), European Commission, Agencia Estatal de Investigación (España), European Research Council, Principado de Asturias, Eusko Jaurlaritza, National Science Foundation (US), Gordon and Betty Moore Foundation, Ministerio de Ciencia e Innovación (España), Ministerio de Economía y Competitividad (España), Duan, Jiahua, Alfaro-Mozaz, F. J., Taboada-Gutiérrez, Javier, Dolado, Irene, Álvarez-Pérez, Gonzalo, Titova, Elena, Bylinkin, Andrei, Tresguerres-Mata, Ana I. F., Martín-Sánchez, Javier, Edgar, James H., Bandurin, Denis A., Jarillo-Herrero, Pablo, Hillenbrand, Rainer, Nikitin, Alexey Y., and Alonso-González, Pablo

Abstract

Optical nanoantennas are of great importance for photonic devices and spectroscopy due to their capability of squeezing light at the nanoscale and enhancing light–matter interactions. Among them, nanoantennas made of polar crystals supporting phonon polaritons (phononic nanoantennas) exhibit the highest quality factors. This is due to the low optical losses inherent in these materials, which, however, hinder the spectral tuning of the nanoantennas due to their dielectric nature. Here, active and passive tuning of ultranarrow resonances in phononic nanoantennas is realized over a wide spectral range (≈35 cm−1, being the resonance linewidth ≈9 cm−1), monitored by near-field nanoscopy. To do that, the local environment of a single nanoantenna made of hexagonal boron nitride is modified by placing it on different polar substrates, such as quartz and 4H-silicon carbide, or covering it with layers of a high-refractive-index van der Waals crystal (WSe2). Importantly, active tuning of the nanoantenna polaritonic resonances is demonstrated by placing it on top of a gated graphene monolayer in which the Fermi energy is varied. This work presents the realization of tunable polaritonic nanoantennas with ultranarrow resonances, which can find applications in active nanooptics and (bio)sensing.

Published

2022

21. Negative reflection of nanoscale-confined polaritons in a low-loss natural medium

Author

Principado de Asturias, Australian Research Council, Australian National Fabrication Facility, National Science Foundation (US), Ministerio de Ciencia, Innovación y Universidades (España), Foundation for Polish Science, European Commission, Eusko Jaurlaritza, Ministerio de Ciencia e Innovación (España), Shenzhen Science and Technology Innovation Commission, Álvarez-Pérez, Gonzalo, Duan, Jiahua, Taboada-Gutiérrez, Javier, Ou, Qingdong, Nikulina, Elizaveta, Liu, Song, Edgar, James H., Bao, Qiaoliang, Giannini, V., Hillenbrand, Rainer, Martín-Sánchez, Javier, Nikitin, Alexey Y., Alonso-González, Pablo, Principado de Asturias, Australian Research Council, Australian National Fabrication Facility, National Science Foundation (US), Ministerio de Ciencia, Innovación y Universidades (España), Foundation for Polish Science, European Commission, Eusko Jaurlaritza, Ministerio de Ciencia e Innovación (España), Shenzhen Science and Technology Innovation Commission, Álvarez-Pérez, Gonzalo, Duan, Jiahua, Taboada-Gutiérrez, Javier, Ou, Qingdong, Nikulina, Elizaveta, Liu, Song, Edgar, James H., Bao, Qiaoliang, Giannini, V., Hillenbrand, Rainer, Martín-Sánchez, Javier, Nikitin, Alexey Y., and Alonso-González, Pablo

Abstract

Negative reflection occurs when light is reflected toward the same side of the normal to the boundary from which it is incident. This exotic optical phenomenon is not only yet to be visualized in real space but also remains unexplored, both at the nanoscale and in natural media. Here, we directly visualize nanoscale-confined polaritons negatively reflecting on subwavelength mirrors fabricated in a low-loss van der Waals crystal. Our near-field nanoimaging results unveil an unconventional and broad tunability of both the polaritonic wavelength and direction of propagation upon negative reflection. On the basis of these findings, we introduce a device in nano-optics: a hyperbolic nanoresonator, in which hyperbolic polaritons with different momenta reflect back to a common point source, enhancing the intensity. These results pave way to realize nanophotonics in low-loss natural media, providing an efficient route to control nanolight, a key for future on-chip optical nanotechnologies.

Published

2022

22. Active and Passive Tuning of Ultranarrow Resonances in Polaritonic Nanoantennas

Author

Massachusetts Institute of Technology. Department of Physics, Duan, Jiahua, Alfaro‐Mozaz, Francisco Javier, Taboada‐Gutiérrez, Javier, Dolado, Irene, Álvarez‐Pérez, Gonzalo, Titova, Elena, Bylinkin, Andrei, Tresguerres‐Mata, Ana Isabel F, Martín‐Sánchez, Javier, Liu, Song, Edgar, James H, Bandurin, Denis A, Jarillo‐Herrero, Pablo, Hillenbrand, Rainer, Nikitin, Alexey Y, Alonso‐González, Pablo, Massachusetts Institute of Technology. Department of Physics, Duan, Jiahua, Alfaro‐Mozaz, Francisco Javier, Taboada‐Gutiérrez, Javier, Dolado, Irene, Álvarez‐Pérez, Gonzalo, Titova, Elena, Bylinkin, Andrei, Tresguerres‐Mata, Ana Isabel F, Martín‐Sánchez, Javier, Liu, Song, Edgar, James H, Bandurin, Denis A, Jarillo‐Herrero, Pablo, Hillenbrand, Rainer, Nikitin, Alexey Y, and Alonso‐González, Pablo

Abstract

Optical nanoantennas are of great importance for photonic devices and spectroscopy due to their capability of squeezing light at the nanoscale and enhancing light-matter interactions. Among them, nanoantennas made of polar crystals supporting phonon polaritons (phononic nanoantennas) exhibit the highest quality factors. This is due to the low optical losses inherent in these materials, which, however, hinder the spectral tuning of the nanoantennas due to their dielectric nature. Here, active and passive tuning of ultranarrow resonances in phononic nanoantennas is realized over a wide spectral range (≈35 cm-1 , being the resonance linewidth ≈9 cm-1 ), monitored by near-field nanoscopy. To do that, the local environment of a single nanoantenna made of hexagonal boron nitride is modified by placing it on different polar substrates, such as quartz and 4H-silicon carbide, or covering it with layers of a high-refractive-index van der Waals crystal (WSe2 ). Importantly, active tuning of the nanoantenna polaritonic resonances is demonstrated by placing it on top of a gated graphene monolayer in which the Fermi energy is varied. This work presents the realization of tunable polaritonic nanoantennas with ultranarrow resonances, which can find applications in active nanooptics and (bio)sensing.

Published

2022

23. Active and Passive Tuning of Ultranarrow Resonances in Polaritonic Nanoantennas

Author

Duan, Jiahua, primary, Alfaro‐Mozaz, Francisco Javier, additional, Taboada‐Gutiérrez, Javier, additional, Dolado, Irene, additional, Álvarez‐Pérez, Gonzalo, additional, Titova, Elena, additional, Bylinkin, Andrei, additional, Tresguerres‐Mata, Ana Isabel F., additional, Martín‐Sánchez, Javier, additional, Liu, Song, additional, Edgar, James H., additional, Bandurin, Denis A., additional, Jarillo‐Herrero, Pablo, additional, Hillenbrand, Rainer, additional, Nikitin, Alexey Y., additional, and Alonso‐González, Pablo, additional

Published

2022

24. Focusing of in-plane hyperbolic polaritons in van der Waals crystals with tailored infrared nanoantennas

Author

Martín-Sánchez, Javier, primary, Duan, Jiahua, additional, Taboada-Gutiérrez, Javier, additional, Álvarez-Pérez, Gonzalo, additional, Voronin, Kirill V., additional, Prieto, Iván, additional, Ma, Weiliang, additional, Bao, Qiaoliang, additional, Volkov, Valentyn S., additional, Hillenbrand, Rainer, additional, Nikitin, Alexey Y., additional, and Alonso-González, Pablo, additional

Published

2021

25. Real-space observation of vibrational strong coupling between propagating phonon polaritons and organic molecules

Author

Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Ministerio de Economía y Competitividad (España), European Commission, Eusko Jaurlaritza, European Research Council, Principado de Asturias, National Science Foundation (US), Bylinkin, Andrei, Schnell, Martin, Autore, Marta, Calavalle, Francesco, Li, Peining, Taboada-Gutiérrez, Javier, Liu, Song, Edgar, James H., Casanova, Fèlix, Hueso, Luis E., Alonso-González, Pablo, Nikitin, Alexey Y., Hillenbrand, Rainer, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Ministerio de Economía y Competitividad (España), European Commission, Eusko Jaurlaritza, European Research Council, Principado de Asturias, National Science Foundation (US), Bylinkin, Andrei, Schnell, Martin, Autore, Marta, Calavalle, Francesco, Li, Peining, Taboada-Gutiérrez, Javier, Liu, Song, Edgar, James H., Casanova, Fèlix, Hueso, Luis E., Alonso-González, Pablo, Nikitin, Alexey Y., and Hillenbrand, Rainer

Abstract

Phonon polaritons in van der Waals materials can strongly enhance light–matter interactions at mid-infrared frequencies, owing to their extreme field confinement and long lifetimes1,2,3,4,5,6,7. Phonon polaritons thus bear potential for vibrational strong coupling with molecules. Although the onset of vibrational strong coupling was observed spectroscopically with phonon-polariton nanoresonators8, no experiments have resolved vibrational strong coupling in real space and with propagating modes. Here we demonstrate by nanoimaging that vibrational strong coupling can be achieved between propagating phonon polaritons in thin van der Waals crystals (hexagonal boron nitride) and molecular vibrations in adjacent thin molecular layers. We performed near-field polariton interferometry, showing that vibrational strong coupling leads to the formation of a propagating hybrid mode with a pronounced anti-crossing region in its dispersion, in which propagation with negative group velocity is found. Numerical calculations predict vibrational strong coupling for nanometre-thin molecular layers and phonon polaritons in few-layer van der Waals materials, which could make propagating phonon polaritons a promising platform for ultrasensitive on-chip spectroscopy and strong-coupling experiments.

Published

2021

26. Extracting the Infrared Permittivity of SiO2 Substrates Locally by Near-Field Imaging of Phonon Polaritons in a van der Waals Crystal

Author

Aguilar-Merino, Patricia, primary, Álvarez-Pérez, Gonzalo, additional, Taboada-Gutiérrez, Javier, additional, Duan, Jiahua, additional, Prieto, Iván, additional, Álvarez-Prado, Luis Manuel, additional, Nikitin, Alexey Y., additional, Martín-Sánchez, Javier, additional, and Alonso-González, Pablo, additional

Published

2021

27. Nanoscale‐Confined Terahertz Polaritons in a van der Waals Crystal

Author

de Oliveira, Thales V. A. G., primary, Nörenberg, Tobias, additional, Álvarez‐Pérez, Gonzalo, additional, Wehmeier, Lukas, additional, Taboada‐Gutiérrez, Javier, additional, Obst, Maximilian, additional, Hempel, Franz, additional, Lee, Eduardo J. H., additional, Klopf, J. Michael, additional, Errea, Ion, additional, Nikitin, Alexey Y., additional, Kehr, Susanne C., additional, Alonso‐González, Pablo, additional, and Eng, Lukas M., additional

Published

2020

28. Van der Waals Semiconductors: Infrared Permittivity of the Biaxial van der Waals Semiconductor α‐MoO 3 from Near‐ and Far‐Field Correlative Studies (Adv. Mater. 29/2020)

Author

Álvarez‐Pérez, Gonzalo, primary, Folland, Thomas G., additional, Errea, Ion, additional, Taboada‐Gutiérrez, Javier, additional, Duan, Jiahua, additional, Martín‐Sánchez, Javier, additional, Tresguerres‐Mata, Ana I. F., additional, Matson, Joseph R., additional, Bylinkin, Andrei, additional, He, Mingze, additional, Ma, Weiliang, additional, Bao, Qiaoliang, additional, Martín, José Ignacio, additional, Caldwell, Joshua D., additional, Nikitin, Alexey Y., additional, and Alonso‐González, Pablo, additional

Published

2020

29. Twisted Nano-Optics: Manipulating Light at the Nanoscale with Twisted Phonon Polaritonic Slabs

Author

Duan, Jiahua, primary, Capote-Robayna, Nathaniel, additional, Taboada-Gutiérrez, Javier, additional, Álvarez-Pérez, Gonzalo, additional, Prieto, Iván, additional, Martín-Sánchez, Javier, additional, Nikitin, Alexey Y., additional, and Alonso-González, Pablo, additional

Published

2020

30. Infrared Permittivity of the Biaxial van der Waals Semiconductor α‐MoO3from Near‐ and Far‐Field Correlative Studies

Author

Álvarez‐Pérez, Gonzalo, primary, Folland, Thomas G., additional, Errea, Ion, additional, Taboada‐Gutiérrez, Javier, additional, Duan, Jiahua, additional, Martín‐Sánchez, Javier, additional, Tresguerres‐Mata, Ana I. F., additional, Matson, Joseph R., additional, Bylinkin, Andrei, additional, He, Mingze, additional, Ma, Weiliang, additional, Bao, Qiaoliang, additional, Martín, José Ignacio, additional, Caldwell, Joshua D., additional, Nikitin, Alexey Y., additional, and Alonso‐González, Pablo, additional

Published

2020

31. Broad spectral tuning of ultra-low-loss polaritons in a van der Waals crystal by intercalation

Author

Taboada-Gutiérrez, Javier, primary, Álvarez-Pérez, Gonzalo, additional, Duan, Jiahua, additional, Ma, Weiliang, additional, Crowley, Kyle, additional, Prieto, Iván, additional, Bylinkin, Andrei, additional, Autore, Marta, additional, Volkova, Halyna, additional, Kimura, Kenta, additional, Kimura, Tsuyoshi, additional, Berger, M.-H., additional, Li, Shaojuan, additional, Bao, Qiaoliang, additional, Gao, Xuan P. A., additional, Errea, Ion, additional, Nikitin, Alexey Y., additional, Hillenbrand, Rainer, additional, Martín-Sánchez, Javier, additional, and Alonso-González, Pablo, additional

Published

2020

32. Cómo manipular nanoluz en varias frecuencias

Author

Taboada-Gutiérrez, Javier, Álvarez-Pérez, Gonzalo, Duan, Jiahua, Ma, Weiliang, Crowley, Kryle, Prieto, Iván, Bylinkin, Andrei, Autore, Marta, Volkova, Halyna, Kimura, Kenta, Kimura, Tsuyoshi, Berger, M.-H., Li, Shaojuan, Bao, Qiaoliang, Gao, Xuan P. A., Errea, Ion, Nikitin, Alexey Y., Martín-Sánchez, Javier, Alonso-González, Pablo, Taboada-Gutiérrez, Javier, Álvarez-Pérez, Gonzalo, Duan, Jiahua, Ma, Weiliang, Crowley, Kryle, Prieto, Iván, Bylinkin, Andrei, Autore, Marta, Volkova, Halyna, Kimura, Kenta, Kimura, Tsuyoshi, Berger, M.-H., Li, Shaojuan, Bao, Qiaoliang, Gao, Xuan P. A., Errea, Ion, Nikitin, Alexey Y., Martín-Sánchez, Javier, and Alonso-González, Pablo

Abstract

Científicos de la Universidad de Oviedo y el Centro de Investigación en Nanomateriales y Nanotecnología han descubierto un método para controlar la frecuencia de la luz en la nanoescala intercalando átomos de sodio en los llamados materiales de van der Waals. El avance se podría aplicar en tecnologías de la información y sensores biológicos de alta sensibilidad.

Published

2020

33. Cómo manipular la nanoluz con un giro ‘mágico’

Author

Alonso-González, Pablo, Duan, Jiahua, Capote Robayna, Nathaniel, Taboada-Gutiérrez, Javier, Álvarez-Pérez, Gonzalo, Prieto, Iván, Martín-Sánchez, Javier, Nikitin, Alexey Y., Alonso-González, Pablo, Duan, Jiahua, Capote Robayna, Nathaniel, Taboada-Gutiérrez, Javier, Álvarez-Pérez, Gonzalo, Prieto, Iván, Martín-Sánchez, Javier, and Nikitin, Alexey Y.

Abstract

Cuando dos láminas de trióxido de molibdeno se giran con un ángulo crítico se consigue que unas ondas mitad luz y mitad materia, llamadas polaritones, viajen en una determinada dirección. De esta forma se puede controlar la propagación de nanoluz, un avance con aplicaciones en sensores biológicos, nanoimagen y tecnologías cuánticas.

Published

2020

34. Tuning of the optical properties of single photon sources by elastic strain engineering

Author

Martín-Sánchez, Javier, Yuan, Xueyong, Tedeschi, Davide, Taboada-Gutiérrez, Javier, Alonso-González, Pablo, Trotta, Rinaldo, and Rastelli, Armando

Abstract

Resumen del trabajo presentado a la XXXVII Reunión Bienal de la Real Sociedad Española de Física (RSEF), celebrada en Zaragoza del 15 al 21 de julio de 2019.

Published

2019

35. Strain-Tunable Single Photon Sources in WSe2 Monolayers

Author

Iff, Oliver, primary, Tedeschi, Davide, additional, Martín-Sánchez, Javier, additional, Moczała-Dusanowska, Magdalena, additional, Tongay, Sefaattin, additional, Yumigeta, Kentaro, additional, Taboada-Gutiérrez, Javier, additional, Savaresi, Matteo, additional, Rastelli, Armando, additional, Alonso-González, Pablo, additional, Höfling, Sven, additional, Trotta, Rinaldo, additional, and Schneider, Christian, additional

Published

2019

36. In-plane anisotropic and ultra-low-loss polaritons in a natural van der Waals crystal

Author

Taboada-Gutiérrez, Javier, Weiliang, Ma, Li, Shaojuan, Nikitin, Alexey Y., Yuan, Jian, Martín-Sánchez, Javier, Amenabar, Iban, Li, Peining, Vélez, Saul, Tollan, Christopher, Dai, Zhigao, Zhang, Yupeng, Sriram, Sharath, Kalantar-Zadeh, Kourosh, Lee, Shuit-Tong, Hillenbrand, Rainer, Alonso-González, Pablo, Bao, Qiaoliang, Taboada-Gutiérrez, Javier, Weiliang, Ma, Li, Shaojuan, Nikitin, Alexey Y., Yuan, Jian, Martín-Sánchez, Javier, Amenabar, Iban, Li, Peining, Vélez, Saul, Tollan, Christopher, Dai, Zhigao, Zhang, Yupeng, Sriram, Sharath, Kalantar-Zadeh, Kourosh, Lee, Shuit-Tong, Hillenbrand, Rainer, Alonso-González, Pablo, and Bao, Qiaoliang

Published

2019

37. Strain-tunable single photon sources in WSe2 monolayers

Author

Principado de Asturias, European Commission, European Research Council, National Science Foundation (US), Free State of Bavaria, Iff, Oliver [0000-0002-3613-8605], Moczała-Dusanowska, Magdalena [0000-0002-8023-4290], Tongay, Sefaattin [0000-0001-8294-984X], Iff, Oliver, Tedeschi, Davide, Martín-Sánchez, Javier, Moczała-Dusanowska, Magdalena, Tongay, Sefaattin, Yumigeta, Kentaro, Taboada-Gutiérrez, Javier, Savaresi, Matteo, Rastelli, Armando, Höfling, Sven, Trotta, Rinaldo, Alonso-González, Pablo, Schneider, Christian, Principado de Asturias, European Commission, European Research Council, National Science Foundation (US), Free State of Bavaria, Iff, Oliver [0000-0002-3613-8605], Moczała-Dusanowska, Magdalena [0000-0002-8023-4290], Tongay, Sefaattin [0000-0001-8294-984X], Iff, Oliver, Tedeschi, Davide, Martín-Sánchez, Javier, Moczała-Dusanowska, Magdalena, Tongay, Sefaattin, Yumigeta, Kentaro, Taboada-Gutiérrez, Javier, Savaresi, Matteo, Rastelli, Armando, Höfling, Sven, Trotta, Rinaldo, Alonso-González, Pablo, and Schneider, Christian

Abstract

The appearance of single photon sources in atomically thin semiconductors holds great promises for the development of a flexible and ultracompact quantum technology in which elastic strain engineering can be used to tailor their emission properties. Here, we show a compact and hybrid two-dimensional semiconductor-piezoelectric device that allows for controlling the energy of single photons emitted by quantum emitters localized in wrinkled WSe2 monolayers. We demonstrate that strain fields exerted by the piezoelectric device can be used to tune the energy of localized excitons in WSe2 up to 18 meV in a reversible manner while leaving the single photon purity unaffected over a wide range. Interestingly, we find that the magnitude and, in particular, the sign of the energy shift as a function of stress is emitter dependent. With the help of finite element simulations we suggest a simple model that explains our experimental observations and, furthermore, discloses that the type of strain (tensile or compressive) experienced by the quantum emitters strongly depends on their localization across the wrinkles. Our findings are of strong relevance for the practical implementation of single photon devices based on two-dimensional materials as well as for understanding the effects of strain on their emission properties.

Published

2019

38. On the large near-field enhancement on nanocolumnar gold substrates

Author

Comunidad de Madrid, Universidad Politécnica de Madrid, Ministerio de Economía y Competitividad (España), European Commission, Díaz-Núñez, Pablo, García-Martín, José Miguel, González Sagardoy, María Ujué, González-Arrabal, Raquel, Rivera, A., Alonso-González, Pablo, Martín-Sánchez, Javier, Taboada-Gutiérrez, Javier, González-Rubio, Guillermo, Guerrero-Martínez, Andrés, Bañares, Luis, Peña Rodríguez, Ovidio, Comunidad de Madrid, Universidad Politécnica de Madrid, Ministerio de Economía y Competitividad (España), European Commission, Díaz-Núñez, Pablo, García-Martín, José Miguel, González Sagardoy, María Ujué, González-Arrabal, Raquel, Rivera, A., Alonso-González, Pablo, Martín-Sánchez, Javier, Taboada-Gutiérrez, Javier, González-Rubio, Guillermo, Guerrero-Martínez, Andrés, Bañares, Luis, and Peña Rodríguez, Ovidio

Abstract

One of the most important and distinctive features of plasmonic nanostructures is their ability to confine large electromagnetic fields on nanometric volumes; i.e., the so-called hot spots. The generation, control and characterization of the hot spots are fundamental for several applications, like surface-enhanced spectroscopies. In this work, we characterize the near-field distribution and enhancement of nanostructured gold thin films fabricated by glancing angle deposition magnetron sputtering. These films are composed of columnar nanostructures with high roughness and high density of inter-columnar gaps, where the electromagnetic radiation can be confined, generating hot spots. As expected, the hot spots are localized in the gaps between adjacent nanocolumns and we use scattering-type scanning near-field optical microscopy to image their distribution over the surface of the samples. The experimental results are compared with finite-difference time-domain simulations, finding an excellent agreement between them. The spectral dependence of the field-enhancement is also studied with the simulations, together with surface-enhanced Raman spectroscopy at different excitation wavelengths in the visible-NIR range, proving a broad-band response of the substrates. These findings may result in interesting applications in the field of surface-enhanced optical spectroscopies or sensing.

Published

2019

39. Síntesis, caracterización y propiedades ópticas de nanopartículas de titanato de estroncio dopado con tierras raras

Author

Taboada Gutiérrez, Javier, Valiente Barroso, Rafael, and Universidad de Cantabria

Abstract

RESUMEN: La luminiscencia upconversion es un fenómeno físico que consiste, grosso modo, en la absorción por un material de una energía con una longitud de onda λ1 y la posterior emisión de fotones con una longitud de onda λ2 tal que λ2 < λ1. Este fenómeno tiene multitud de aplicaciones tanto en biomedicina como en la industria energética. Utilizaremos SrTiO3 impurificado con Er3+ e Yb3+ y estudiaremos sus propiedades luminiscentes: espectros de absorción, excitación y emisión, tiempos de vida, dependencia con la potencia de excitación y dependencia con la temperatura. ABSTRACT: Upconversion Luminescence is a physical phenomenon consisting roughly in the absorption by a material of an energy with a wavelength λ1 and the subsequent emission of photons with a wavelength λ2 such that λ2 < λ1. This phenomenon has many applications in investigation camps like biomedicine or energy industry. We will use SrTiO3 doped with Er3+ and Yb3+ and study its luminescence properties: absorption, excitation and emission spectra, lifetimes, dependence with excitation power and temperature dependence. Máster en Nuevos Materiales

Published

2017

40. Nanoscale‐Confined Terahertz Polaritons in a van der Waals Crystal.

Author

Oliveira, Thales V. A. G., Nörenberg, Tobias, Álvarez‐Pérez, Gonzalo, Wehmeier, Lukas, Taboada‐Gutiérrez, Javier, Obst, Maximilian, Hempel, Franz, Lee, Eduardo J. H., Klopf, J. Michael, Errea, Ion, Nikitin, Alexey Y., Kehr, Susanne C., Alonso‐González, Pablo, and Eng, Lukas M.

Published

2021

41. Infrared Permittivity of the Biaxial van der Waals Semiconductor α‐MoO3 from Near‐ and Far‐Field Correlative Studies.

Author

Álvarez‐Pérez, Gonzalo, Folland, Thomas G., Errea, Ion, Taboada‐Gutiérrez, Javier, Duan, Jiahua, Martín‐Sánchez, Javier, Tresguerres‐Mata, Ana I. F., Matson, Joseph R., Bylinkin, Andrei, He, Mingze, Ma, Weiliang, Bao, Qiaoliang, Martín, José Ignacio, Caldwell, Joshua D., Nikitin, Alexey Y., and Alonso‐González, Pablo

Published

2020

42. Estudio de las propiedades dieléctricas del Ba1-xSrxTiO3

Author

Taboada-Gutiérrez, Javier and Menéndez, José Luis

Subjects

education

Published

2016

43. Strain-Tunable Single Photon Sources in WSe2 Monolayers.

Author

Iff, Oliver, Tedeschi, Davide, Martín-Sánchez, Javier, Moczała-Dusanowska, Magdalena, Tongay, Sefaattin, Yumigeta, Kentaro, Taboada-Gutiérrez, Javier, Savaresi, Matteo, Rastelli, Armando, Alonso-González, Pablo, Höfling, Sven, Trotta, Rinaldo, and Schneider, Christian

Published

2019

44. Estudio de las propiedades dieléctricas del Ba1-xSrxTiO3

Author

Menéndez, José Luis, Taboada-Gutiérrez, Javier, Menéndez, José Luis, and Taboada-Gutiérrez, Javier

Published

2016

45. Extracting the Infrared Permittivity of SiO 2 Substrates Locally by Near-Field Imaging of Phonon Polaritons in a van der Waals Crystal.

Author

Aguilar-Merino, Patricia, Álvarez-Pérez, Gonzalo, Taboada-Gutiérrez, Javier, Duan, Jiahua, Prieto, Iván, Álvarez-Prado, Luis Manuel, Nikitin, Alexey Y., Martín-Sánchez, Javier, and Alonso-González, Pablo

Subjects

POLARITONS, VAN der Waals forces, PERMITTIVITY measurement, PERMITTIVITY, NEAR-field microscopy, BORON nitride, OPTICAL losses

Abstract

Layered materials in which individual atomic layers are bonded by weak van der Waals forces (vdW materials) constitute one of the most prominent platforms for materials research. Particularly, polar vdW crystals, such as hexagonal boron nitride (h-BN), alpha-molybdenum trioxide (α-MoO3) or alpha-vanadium pentoxide (α-V2O5), have received significant attention in nano-optics, since they support phonon polaritons (PhPs)―light coupled to lattice vibrations― with strong electromagnetic confinement and low optical losses. Recently, correlative far- and near-field studies of α-MoO3 have been demonstrated as an effective strategy to accurately extract the permittivity of this material. Here, we use this accurately characterized and low-loss polaritonic material to sense its local dielectric environment, namely silica (SiO2), one of the most widespread substrates in nanotechnology. By studying the propagation of PhPs on α-MoO3 flakes with different thicknesses laying on SiO2 substrates via near-field microscopy (s-SNOM), we extract locally the infrared permittivity of SiO2. Our work reveals PhPs nanoimaging as a versatile method for the quantitative characterization of the local optical properties of dielectric substrates, crucial for understanding and predicting the response of nanomaterials and for the future scalability of integrated nanophotonic devices. [ABSTRACT FROM AUTHOR]

Published

2021

46. Terahertz Twistoptics-Engineering Canalized Phonon Polaritons.

Author

Obst M, Nörenberg T, Álvarez-Pérez G, de Oliveira TVAG, Taboada-Gutiérrez J, Feres FH, Kaps FG, Hatem O, Luferau A, Nikitin AY, Klopf JM, Alonso-González P, Kehr SC, and Eng LM

Abstract

The terahertz (THz) frequency range is key to studying collective excitations in many crystals and organic molecules. However, due to the large wavelength of THz radiation, the local probing of these excitations in smaller crystalline structures or few-molecule arrangements requires sophisticated methods to confine THz light down to the nanometer length scale, as well as to manipulate such a confined radiation. For this purpose, in recent years, taking advantage of hyperbolic phonon polaritons (HPhPs) in highly anisotropic van der Waals (vdW) materials has emerged as a promising approach, offering a multitude of manipulation options, such as control over the wavefront shape and propagation direction. Here, we demonstrate the THz application of twist-angle-induced HPhP manipulation, designing the propagation of confined THz radiation between 8.39 and 8.98 THz in the vdW material α-molybdenum trioxide (α-MoO 3 ), hence extending twistoptics to this intriguing frequency range. Our images, recorded by near-field optical microscopy, show the frequency- and twist-angle-dependent changes between hyperbolic and elliptic polariton propagation, revealing a polaritonic transition at THz frequencies. As a result, we are able to allocate canalization (highly collimated propagation) of confined THz radiation by carefully adjusting these two parameters, i.e. frequency and twist angle. Specifically, we report polariton canalization in α-MoO 3 at 8.67 THz for a twist angle of 50°. Our results demonstrate the precise control and manipulation of confined collective excitations at THz frequencies, particularly offering possibilities for nanophotonic applications.

Published

2023