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20 Aug 2025 • Journal Article • Physical Review Research
Adding photonic entanglement to superradiance by using multilevel atoms
AbstractWe show here that the photonic states emitted by ensembles of multilevel atoms via a superradiance process exhibit entanglement in the modal (frequency) degree of freedom, making this collective emission process a favorable candidate for a fast, bright, and deterministic source of entangled photons. This entanglement is driven by two mechanisms: (i) selective excitation
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20 Aug 2025 • Preprint • arXiv
Sideband Spectroscopy in the Strong Driving Regime: Volcano Transparency and Sideband Anomaly
AbstractWe study the response of a spin to two crossed magnetic fields: a strong and fast transverse field, and a weak and slow longitudinal field. We characterize the sideband response at the sum and the difference of driving frequencies over a broad range of parameters. In the strong transverse driving regime, the emission spectrum has a characteristic volcano lineshape with
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18 Aug 2025 • Preprint • arXiv
Quantum sensing of electron beams using solid-state spins
AbstractScattering experiments with energetic particles, such as free electrons, have been historically used to reveal the quantum structure of matter. However, realizing coherent interactions between free-electron beams and solid-state quantum systems has remained out of reach, owing to their intrinsically weak coupling. Realizing such coherent control would open up opportunities
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14 Aug 2025 • Preprint • arXiv
Reliable high-accuracy error mitigation for utility-scale quantum circuits
AbstractError mitigation is essential for unlocking the full potential of quantum algorithms and accelerating the timeline toward quantum advantage. As quantum hardware progresses to push the boundaries of classical simulation, efficient and robust error mitigation methods are becoming increasingly important for producing accurate and reliable outputs. We introduce QESEM, a
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11 Aug 2025 • Preprint • arXiv
Rabi Oscillations Modulated Noise Squeezing in Active Quantum Dot Ensembles
AbstractGeneration of squeezed light is usually implemented in nonlinear \c{hi}(2) or \c{hi}(3) materials. Semiconductor lasers and optical amplifiers (SOAs) also offer non-linearities but they differ from passive elements in that they add amplified spontaneous emission noise (ASE). In a semiconductor laser, squeezing to below the shot noise limit has been demonstrated. An SOA
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11 Aug 2025 • Preprint • arXiv
Steady state properties of periodically driven quantum systems
AbstractPeriodic driving is used to steer physical systems to unique stationary states or nonequilibrium steady states (NESS), producing enhanced properties inaccessible to non-driven systems. For open quantum systems, characterizing the NESS is challenging and existing results are generally limited to specific types of driving and the Born-Markov approximation. Here we go
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10 Aug 2025 • Preprint • arXiv
Ion Coulomb crystals: an exotic form of condensed matter
AbstractWigner crystals formed by laser-cooled ions in traps are unconventional condensed-matter systems, characterized by interparticle distances of several micrometers and energy scales on the order of $\mu$eV. Their crystalline structure emerges from the interplay between Coulomb repulsion and the external confining potential, which can be readily tuned. Moreover, individual
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8 Aug 2025 • Preprint • arXiv
Supercoherence: Harnessing Long-Range Interactions to Preserve Collective Coherence in Disordered Systems
AbstractArtificial quantum systems with synthetic dimensions enable exploring novel quantum phenomena difficult to create in conventional materials. These synthetic degrees of freedom increase the system's dimensionality without altering its physical structure, accessing higher-dimensional physics in lower-dimensional setups. However, synthetic quantum systems often suffer from
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7 Aug 2025 • Journal Article • Journal of Applied Physics
Ultra-low-energy nitrogen ion interactions with diamond surfaces: Impact of crystal orientation on bonding and thermal stability
AbstractThis study investigates the influence of crystal orientation on nitrogen incorporation, bonding configurations, and thermal stability in (100)- and (111)-oriented single-crystal diamond (SCD) surfaces implanted with ultra-low-energy N2+ ions (100 and 200 eV; dose: 1 × 1015 ions/cm2). Upon impact, N2+ ions dissociate, and each interacting nitrogen atom receives half the
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6 Aug 2025 • Preprint • arXiv
Cybersecurity of Quantum Key Distribution Implementations
AbstractPractical implementations of Quantum Key Distribution (QKD) often deviate from the theoretical protocols, exposing the implementations to various attacks even when the underlying (ideal) protocol is proven secure. We present new analysis tools and methodologies for quantum cybersecurity, adapting the concepts of vulnerabilities, attack surfaces, and exploits from
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