Explanipedia

Mapping Nonlinear Mode Interactions in Coupled Kerr Resonators Open

Trinchão, Luca O., Peres, Luiz, Gonçalves, Eduardo S., Nienstedt, Miguel, Laís Fujii dos Santos , et al. · 2025

We present a method for resolving spatial mode overlaps in coupled microresonators based on Kerr and thermal cross-phase modulation. Through a pump-probe setup, we measure experimental overlap in a three-ring resonator with good agreement …

Hybrid metamaterials based on labyrinthine and Helmholtz resonators for low-frequency noise attenuation Open

Abbas Dalvand, Reza Hedayati, Aliasghar Jafari · 2025

Low-frequency noise remains a major challenge in industries such as automotive, aerospace, and building acoustics. Conventional solutions often rely on bulky, heavy materials, which are impractical where strict weight and space limitations…

Simultaneous generation of Raman-assisted Soliton Microcombs and Tunable Multi-chromatic Raman Microlasers in Single Monolithic Thin-film Lithium Niobate Microrings Open

Qiu, Yingnuo, Gao, Renhong, Li Chuntao, Yang Yi‐Xuan, Zheng Xinzhi , et al. · 2025

High-performance integrated broadband coherent light sources are essential for advanced applications in high-bandwidth data processing and chip-scale metrology, yet remain challenging. In this study, we demonstrate a monolithic Z-cut lithi…

Broadband Seismic Metamaterials Based on Gammadion-Shaped Chiral Structures Open

Yawen Shen, Boyang Zhang, Pengcheng Ma, Qiujiao Du, Hong-Wu Yang , et al. · 2025

Controlling seismic wave propagation to protect critical infrastructure through metamaterials has emerged as a frontier research topic. The narrow bandgap and heavy weight of a resonant seismic metamaterial(SM) limit its application for se…

Intramodal stimulated Brillouin scattering in suspended AlN waveguides Open

Han Xue, Chukun Huang, Hao-Tian Shi, Jiaheng Fu, Tianheng Zhang , et al. · 2025

Aluminum nitride (AlN), a wide-bandgap III–V material, offers excellent transparency in the optical communication band and a favorable refractive index for strong optical confinement, making it a promising platform in stimulated Brillouin …

Ultranarrow polaritonic cavities formed by one-dimensional junctions of two-dimensional in-plane heterostructures Open

Seojoo Lee, Ji Hun Kang · 2025

We propose two-dimensional (2D) in-plane heterostructures, composed of a 2D crystal adjoining a perfect electric conductor (PEC) plane, that enable ultranarrow polaritonic resonant cavities. Specifically, we theoretically investigate the i…

Dynamic modulation of toroidal bound states in the continuum with suppressed continuum energy Open

Xintong Shi, Feng Deng, Rui Zhou, Yunfei Li, Zihao Yu , et al. · 2025

Bound states in the continuum (BICs) enable ultrahigh-Q photonic resonators critical for advanced optoelectronics, yet their dynamic reconfigurability, particularly modulation depth in single-resonance systems, remains fundamentally limite…

Tunable WS$_2$ Micro-Dome Open Cavity Single Photon Source Open

Drawer, Jens-Christian, Cianci, Salvatore, Solovyeva, Vita, Steinhoff, Alexander, Gies, Christopher , et al. · 2025

Versatile, tunable, and potentially scalable single-photon sources are a key asset in emergent photonic quantum technologies. In this work, a single-photon source based on WS$_2$ micro-domes, created via hydrogen ion irradiation, is realiz…

$\mathcal{PT}$-assisted control of Goos-Hänchen shift in cavity magnomechanics Open

Fahad Shah, Xianlong Gao · 2025

We propose a scheme to manipulate the Goos-Hänchen shift (GHS) of a reflected probe field in a non-Hermitian cavity magnomechanical system. The platform consists of a yttrium-iron-garnet sphere coupled to a microwave cavity, where a strong…

Layers of Prime Gaps and Spectral Inheritance of Noise: An Analytic–Computational Study Open

Ricardo Adonis Caraccioli Abrego · 2025

This paper presents an analytic and computational framework to study noise in the distribution of prime numbers through layers based on multi-step prime gaps. Given the n-th prime pn, we consider the differences g(k,n) := p(n+k) − p(n), gr…

Strongly oversized “three-dimensional” Bragg resonators of planar geometry for effective mode selection in high-power free-electron lasers from sub-THz to THz band Open

N. Yu. Peskov, E.D. Egorova, A. S. Sergeev, I. M. Tsarkov · 2025

A novel scheme of Bragg resonators is proposed that implements three-dimensional (3D) scattering of wave-fluxes. The electrodynamic characteristics of resonators of this type have been studied within the framework of the coupled wave metho…

Proximity driven photon-tunneling in chiral quantum hybrid systems Open

Srivastava, Aryan Pratap, Ketkar, Moulik Deviprasad, Shrivastava, Kuldeep Kumar, Maurya, Abhishek, Bhoi, Biswanath , et al. · 2025

We investigate photon tunneling in a pair of coupled inverted circular split-ring microwave resonators with four discrete chiral orientations. By varying the spacing between the resonators, we observe strong modulation of the transmission …

Superconducting Parametric Amplifiers: Resonator Design and Role in Qubit Readout Open

Mohammadian Babak · 2025

Superconducting parametric amplifiers (SPAs) are critical components for ultralow-noise qubit readout in quantum computing, addressing the critical challenge of amplifying weak quantum signals without introducing noise that degrades cohere…

A fabrication-friendly all-optical plasmonically-enhanced integrated phase-change photonic memory device Open

Junchao Song, Joe Pady, Emanuele Gemo, Nikolaos Farmakidis, Harish Bhaskaran , et al. · 2025

Fano-engineered high-Q compact nested ring resonator based photonic device for advanced multi-analyte biosensing applications Open

Pragya Mishra, Tushar Gaur, Talabattula Srinivas, Pragya Mishra, Tushar Gaur , et al. · 2025

This work presents a compact, CMOS-compatible, Fano-engineered Nested Ring Resonator (NRR) for advanced biosensing applications. The proposed design supports three distinct Fano resonances within a single device, each exhibiting sharp spec…

Ultra high-Q tunable microring resonators enabled by slow light Open

Priyash Barya, Ashwith Prabhu, Laura Heller, Edmond Chow, Elizabeth A. Goldschmidt , et al. · 2025

High-Q nanophotonic resonators are crucial for many applications in classical and quantum optical processing, communication, and sensing. We achieve ultra-high quality factors via a method previously limited to bulk systems, preparing a hi…

Low power consumption piezoelectrically tuned racetrack microring resonator based on polymer composite cantilever Open

Jiaqi Wu, Miaohui Zhang, Xinqing Li, Zhenkai Xie, Shun-Sheng Chen , et al. · 2025

Simultaneous Enhancement of Electrical and Thermal Conductivity in Graphene through Excitation of the Etheric Longitudinal Mode Open

Omeñaca Prado, Carlos · 2025

Within the framework of Quarkbase Cosmology, electromagnetic and transport phenomena arise from longitudinal pressure waves in an etheric medium described by the scalar field Ψ(x,t). When an excitation in the terahertz or mid-infrared rang…

Superconducting Parametric Amplifiers: Resonator Design and Role in Qubit Readout Open

Mohammadian Babak · 2025

Superconducting parametric amplifiers (SPAs) are critical components for ultralow-noise qubit readout in quantum computing, addressing the critical challenge of amplifying weak quantum signals without introducing noise that degrades cohere…

BINACONN3D-MXENES Open

Passia, Maria-Thaleia · 2025

MATLAB codes and data for the paper: M.-T. Passia, Y. Zhao, H. Wang, and S.A. Cummer, "Synthesis of broadband multilayer metamaterial absorbers based on spatially-variable 3D-printed structures and MXenes", Phys.Rev.Appl., DOI: https://doi…

Al$_{1-x}$Hf$_{x}$N Thin Films with Enhanced Piezoelectric Responses for GHz Surface Acoustic Wave Devices Open

Wagner, Laura I., Streibel, Verena, Luna Esperanza, Flashar, Katarina S., Anders, Walid , et al. · 2025

Ternary compounds obtained by alloying wurtzite AlN with transition metals have emerged as promising materials with significantly enhanced piezoelectric characteristics relative to binary AlN. The increased electromechanical coupling in th…

Mode-Matched Resonant Excitation of a Nanowire Quantum Dot in a Nanophotonic Waveguide Open

Sayan Gangopadhyay, Lingxi Yu, Tarun Patel, Matteo Pennacchietti, David B. Northeast , et al. · 2025

Nanowire-based quantum dots as sources of single photons are promising candidates for the implementation of quantum photonic technologies. Achieving coherent control of these sources is essential for generating indistinguishable single pho…

Visualization and selective manipulation of sub-terahertz whispering gallery modes Open

Anna R. Petersen, Pablo Paulsen, Florian Sedlmeir, Nicholas J. Lambert, Harald G. L. Schwefel , et al. · 2025

The development of technologies based on electromagnetic resonant structures usually relies on precise understanding of the spatial form of the supported modes. In millimeter-sized resonators that support millimeter-wave modes, this is oft…

BINACONN3D-MXENES Open

Passia, Maria-Thaleia · 2025

MATLAB codes and data for the paper: M.-T. Passia, Y. Zhao, H. Wang, and S.A. Cummer, "Synthesis of broadband multilayer metamaterial absorbers based on spatially-variable 3D-printed structures and MXenes", Phys.Rev.Appl., DOI: https://doi…

Superinductor-based ultrastrong coupling in a superconducting circuit Open

Alba Torras-Coloma, Luca Cozzolino, Ariadna Gómez-del-Pulgar-Martínez, Elia Bertoldo, P. Forn-Diaz · 2025

We present an ultrastrong superinductor-based coupling mechanism in a circuit consisting of a flux qubit galvanically coupled to an LC resonator. The coupling inductor is fabricated with granular aluminum, a superinductor material able to …

Photonic fully-connected hybrid beamforming using microring weight banks Open

Mitchell Nichols, Hugh Morison, Armaghan Eshaghi, Bhavin Shastri, Lutz LAmpe · 2025

Wireless communication at higher frequency bands has attracted research interest for fifth generation and beyond (5GB) wireless networks due to the large amount of unused bandwidth at these frequencies. However, there are substantial chall…

Fast and length-independent transport time supported by topological edge states in finite-size Su-Schrieffer-Heeger chains Open

Chang Yu HAN, Torres, Nadia Daniela Rivera, Manrique, Santiago Figueroa, Robles, Raul A. Robles, Silalahi, Vanna Chrismas , et al. · 2025

In order to transport information with topological protection, we explore experimentally the fast transport time using edge states in one-dimensional Su-Schrieffer-Heeger (SSH) chains. The transport time is investigated in both one- and tw…

High-quality superconducting tantalum resonators with beta phase defects Open

Ritika Dhundhwal, Haoran Duan, Lucas Brauch, Soroush Arabi, Dirk Fuchs , et al. · 2025

For practical superconducting quantum processors, orders of magnitude improvement in coherence is required, motivating efforts to optimize hardware design and explore new materials. Among the latter, the coherence of superconducting transm…

BINACONN3D-MXENES Open

Passia, Maria-Thaleia · 2025

We introduce a systematic approach for enhancing the absorbance of multilayer metamaterial absorbers (MMA) by combining deep-subwavelength spatially variable dielectric substrates with the increased ohmic losses of MXene resonators. We cho…

Fast and length-independent transport time supported by topological edge states in finite-size Su-Schrieffer-Heeger chains Open

Chang Yu HAN, Torres, Nadia Daniela Rivera, Manrique, Santiago Figueroa, Robles, Raul A. Robles, Silalahi, Vanna Chrismas , et al. · 2025

In order to transport information with topological protection, we explore experimentally the fast transport time using edge states in one-dimensional Su-Schrieffer-Heeger (SSH) chains. The transport time is investigated in both one- and tw…