1. 24 Sep 2024 Journal Article Physical Review A

    Reexamination of vacuum-polarization corrections to the self-energy in muonic bound systems

    Ben Ohayon, U D Jentschura
    Abstract

    In muonic bound systems, the dominant radiative correction is due to vacuum polarization. Yet, for the interpretation of precision experiments, self-energy effects are also important. In turn, additional vacuum-polarization loops perturb the self-energy. Here we show that combined self-energy vacuum-polarization effects can perturb the bound-state self-energy at the

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  2. 13 Sep 2024 Journal Article ACS Applied Materials & Interfaces

    Effects of Dislocation Filtering Layers on Optical Properties of Third Telecom Window Emitting InAs/InGaAlAs Quantum Dots Grown on Silicon Substrates

    Wojciech Rudno-Rudziński, Michał Gawełczyk, Paweł Podemski, Ewelina Cybula, Sandeep Gorantla, Ramasubramanian Balasubramanian, Vitalii Sichkovskyi, Amnon Willinger, Gadi Eisenstein, Johann Peter Reithmaier, Grzegorz Sęk
    Abstract

    Integrating light emitters based on III–V materials with silicon-based electronics is crucial for further increase in data transfer rates in communication systems since the indirect bandgap of silicon prevents its direct use as a light source. We investigate here InAs/InGaAlAs quantum dot (QD) structures grown directly on 5° off-cut Si substrate and emitting light at

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  3. 6 Sep 2024 Journal Article Nature Communications

    Transverse recoil imprinted on free-electron radiation

    Xihang Shi, Lee Wei Wesley Wong, Sunchao Huang, Liang Jie Wong, Ido Kaminer
    Abstract

    Phenomena of free-electron X-ray radiation are treated almost exclusively with classical electrodynamics, despite the intrinsic interaction being that of quantum electrodynamics. The lack of quantumness arises from the vast disparity between the electron energy and the much smaller photon energy, resulting in a small cross-section that makes quantum effects negligible

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  4. 5 Sep 2024 Patent Applied at: WO

    Methods And Apparatus To Generate Macroscopic Fock And Other Sub-Poissonian States Of Radiation

    Marin Soljacic, Ido Kaminer, Nicholas Rivera, Jamison Sloan, Yannick Salamin
    Abstract

    A principle which enables the generation of macroscopic Fock and sub-Poissonian states is disclosed. Generic components of the system include: an electromagnetic structure (possessing one or more electromagnetic resonances), a nonlinear electromagnetic element (such as a nonlinear crystal near or inside the structure), and a source of light. In one embodiment, stimulated

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  5. 3 Sep 2024 Journal Article Physical Review A

    Atomic clock interferometry using optical tweezers

    Ilan Meltzer, Yoav Sagi
    Abstract

    Clock interferometry refers to the coherent splitting of a clock into two different paths and recombining in a way that reveals the proper-time difference between them. Unlike the comparison of two separate clocks, this approach allows testing how nonflat space-time influences quantum coherence. Atomic clocks are currently the most accurate timekeeping devices. Here we

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  6. 28 Aug 2024 Journal Article Nature Physics

    Opportunities in nanoscale probing of laser-driven phase transitions

    Michael Yannai, Matan Haller, Ron Ruimy, Alexey Gorlach, Nicholas Rivera, Dmitri N Basov, Ido Kaminer
    Abstract

    For several decades, optical near-field microscopy has facilitated pioneering investigations of photonic excitations at the nanoscale. In recent years, near-field microscopy of terahertz fields has emerged as an important tool for experiments involving phononic and electronic phenomena, rich spatiotemporal dynamics and highly nonlinear processes. Building on this

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  7. 26 Aug 2024 Journal Article Physical Review B

    Achieving quantized transport in Floquet topological insulators via energy filters

    Ruoyu Zhang, Frederik Nathan, Netanel H Lindner, Mark S Rudner
    Abstract

    Due to photon-assisted transport processes, chiral edge modes induced by periodic driving do not directly mediate quantized transport. Here we show how narrow-bandwidth “energy filters” can restore quantization by suppressing photon-assisted transport through Floquet sidebands. We derive a Floquet-Landauer-type equation to describe transport through such an

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  8. 26 Aug 2024 Preprint Research Square

    Free electron topological bound state induced by light beam with a twisted wavefront

    Yiming Pan, Ruoyu Yin, Yongcheng Ding, Huaiqiang Wang, Daniel K Podolsky, Bin Zhang
    Abstract

    Recent advances in ultrafast electron emission, microscopy, and diffraction have demonstrated a remarkable ability to manipulate free electrons with quantum coherence using light beams. Here, we present a framework for exploring free electron quantum number in ultrafast electron-light interactions. We derive an explicit Jackiw-Rebbi solution for a low-energy free electron

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  9. 19 Aug 2024 Preprint arXiv

    Recent advancements in atomic many-body methods for high-precision studies of isotope shifts

    B K Sahoo, S Blundell, A V Oleynichenko, R F Garcia Ruiz, L V Skripnikov, Ben Ohayon
    Abstract

    The development of atomic many-body methods, capable of incorporating electron correlation effects accurately, is required for isotope shift (IS) studies. In combination with precise measurements, such calculations help to extract nuclear charge radii differences, and to probe for signatures of physics beyond the Standard Model of particle physics. We review here a few

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  10. 16 Aug 2024 Preprint arXiv

    Local quantum channels giving rise to quasi-local Gibbs states

    Itai Arad, Raz Firanko, Omer Gurevich
    Abstract

    We study the steady-state properties of quantum channels with local Kraus operators. We consider a large family that consists of general ergodic 1-local (non-interacting) terms and general 2-local (interacting) terms. Physically, a repeated application of these channels can be seen as a simple model for the thermalization process of a many-body system. We study its

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