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91 lines
6.5 KiB
Plaintext
91 lines
6.5 KiB
Plaintext
https://quantum.fnal.gov/
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https://quantum.fnal.gov/%cf%83-models-on-quantum-computers/
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https://quantum.fnal.gov/algorithms/
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https://quantum.fnal.gov/author/acsmith/
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https://quantum.fnal.gov/author/chadmb/
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https://quantum.fnal.gov/author/marcia/
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https://quantum.fnal.gov/author/maura/
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https://quantum.fnal.gov/breaking-the-49-qubit-barrier-in-the-simulation-of-quantum-circuits/
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https://quantum.fnal.gov/category/foq/
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https://quantum.fnal.gov/category/leadership/
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https://quantum.fnal.gov/category/news/
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https://quantum.fnal.gov/category/publications/
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https://quantum.fnal.gov/cavity-state-manipulation-using-photon-number-selective-phase-gates/
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https://quantum.fnal.gov/confinement-and-kink-entanglement-asymmetry-on-quantum-ising-chain/
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https://quantum.fnal.gov/continuous-symmetries-and-approximate-quantum-error-correction/
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https://quantum.fnal.gov/detecting-dark-matter-with-quantum-computers/
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https://quantum.fnal.gov/development-of-transmon-qubits-solely-from-optical-lithography-on-300-mm-wafers/
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https://quantum.fnal.gov/digital-quantum-computation-of-fermion-boson-interacting-systems/
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https://quantum.fnal.gov/digitization-of-scalar-fields-for-quantum-computing/
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https://quantum.fnal.gov/digitizing-gauge-fields-lattice-monte-carlo-results-for-future-quantum-computers/
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https://quantum.fnal.gov/electron-phonon-systems-on-a-universal-quantum-computer/
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https://quantum.fnal.gov/entanglement-suppression-and-emergent-symmetries-of-strong-interactions/
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https://quantum.fnal.gov/entanglement/
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https://quantum.fnal.gov/experiment-uses-quantum-techniques-to-stimulate-photons-enhancing-search-for-dark-matter/
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https://quantum.fnal.gov/farah-fahim/
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https://quantum.fnal.gov/fermilab-and-partners-achieve-sustained-high-fidelity-quantum-teleportation/
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https://quantum.fnal.gov/fermilab-goes-deep-to-silence-noisy-radiation-affecting-qubits/
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https://quantum.fnal.gov/fermilab-is-partner-in-quantum-science-center-based-at-oak-ridge-national-laboratory/
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https://quantum.fnal.gov/fermilab-opens-new-quiet-underground-quantum-information-science-laboratory/
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https://quantum.fnal.gov/fermilab-receives-doe-funding-to-further-develop-nationwide-quantum-network/
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https://quantum.fnal.gov/gausss-law-duality-and-the-hamiltonian-framework-of-lattice-gauge-theory/
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https://quantum.fnal.gov/general-methods-for-digital-quantum-simulation-of-gauge-theories/
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https://quantum.fnal.gov/gluon-field-digitization-for-quantum-computers/
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https://quantum.fnal.gov/high-kinetic-inductance-additive-manufactured-superconducting-microwave-cavity/
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https://quantum.fnal.gov/https-arxiv-org-abs-2407-13080/
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https://quantum.fnal.gov/https-arxiv-org-html-2403-02762/
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https://quantum.fnal.gov/https-doi-org-10-1103-physreva-109-032419/
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https://quantum.fnal.gov/https-journals-aps-org-pra-abstract-10-1103-physreva-107-032603/
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https://quantum.fnal.gov/large-scale-simulations-of-quantum-systems-on-hpc-with-analytics-for-hep-algorithms/
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https://quantum.fnal.gov/machine-learning-for-arbitrary-single-qubit-rotations-on-an-embedded-device/
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https://quantum.fnal.gov/matter-wave-atomic-gradiometer-interferometric-sensor-magis-100-at-fermilab/
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https://quantum.fnal.gov/minimally-entangled-state-preparation-of-localized-wavefunctions-on-quantum-computers/
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https://quantum.fnal.gov/news/
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https://quantum.fnal.gov/optimal-control-for-the-quantum-simulation-of-nuclear-dynamics/
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https://quantum.fnal.gov/optimal-mass-variables-for-semivisible-jets/
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https://quantum.fnal.gov/oracles-for-gausss-law-on-digital-quantum-computers/
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https://quantum.fnal.gov/panagiotis-spentzouris/
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https://quantum.fnal.gov/partner-with-us/
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https://quantum.fnal.gov/parton-physics-on-a-quantum-computer/
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https://quantum.fnal.gov/protecting-superconducting-qubits-from-phonon-mediated-decay/
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https://quantum.fnal.gov/putting-the-squeeze-on-axions/
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https://quantum.fnal.gov/quantum-circuit-fidelity-estimation-using-machine-learning/
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https://quantum.fnal.gov/quantum-computing-as-a-high-school-module/
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https://quantum.fnal.gov/quantum-memory-with-millisecond-coherence-in-circuit-qed/
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https://quantum.fnal.gov/quantum-network-between-two-national-labs-achieves-record-synch/
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https://quantum.fnal.gov/quantum-sensing-for-high-energy-physics/
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https://quantum.fnal.gov/quiet-a-place-to-study-qubits-shielded-from-the-effects-of-cosmic-rays/
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https://quantum.fnal.gov/reaching-10-ms-single-photon-lifetimes-for-superconducting-aluminum-cavities/
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https://quantum.fnal.gov/research-highlights/
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https://quantum.fnal.gov/research/
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https://quantum.fnal.gov/research/electronics-and-controls-for-quantum/
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https://quantum.fnal.gov/research/quantum-communication-networking/
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https://quantum.fnal.gov/research/quantum-computing-applications-and-simulations/
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https://quantum.fnal.gov/research/quantum-sensing-and-applications/
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https://quantum.fnal.gov/sensing-and-metrology/
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https://quantum.fnal.gov/sensitive-qubit-based-technique-to-accelerate-search-for-dark-matter/
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https://quantum.fnal.gov/simulating-quantum-field-theory-with-a-quantum-computer/
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https://quantum.fnal.gov/simulation-of-nonequilibrium-dynamics-on-a-quantum-computer/
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https://quantum.fnal.gov/simulations-of-subatomic-many-body-physics-on-a-quantum-frequency-processor/
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https://quantum.fnal.gov/single-photon-resolved-cross-kerr-interaction-for-autonomous-stabilization-of-photon-number-states/
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https://quantum.fnal.gov/stimulated-emission-of-signal-photons-from-dark-matter-waves/
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https://quantum.fnal.gov/su2-non-abelian-gauge-field-theory-in-one-dimension-on-digital-quantum-computers/
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https://quantum.fnal.gov/tag/ai/
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https://quantum.fnal.gov/tag/algorithms/
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https://quantum.fnal.gov/tag/artificial-intelligence/
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https://quantum.fnal.gov/tag/lattice-qcd/
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https://quantum.fnal.gov/tag/lqcd/
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https://quantum.fnal.gov/tag/machine-learning/
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https://quantum.fnal.gov/tag/ml/
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https://quantum.fnal.gov/tag/quantum-theory/
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https://quantum.fnal.gov/tag/theory/
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https://quantum.fnal.gov/tailoring-non-abelian-lattice-gauge-theory-for-quantum-simulation/
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https://quantum.fnal.gov/teleportation-systems-toward-a-quantum-internet/
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https://quantum.fnal.gov/three-dimensional-superconducting-resonators-at-t-20-mk-with-the-photon-lifetime-up-to-%cf%84-2-seconds/
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https://quantum.fnal.gov/toward-quantum-simulations-of-z2-gauge-theory-without-state-preparation/
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https://quantum.fnal.gov/understanding-quality-factor-degradation-in-superconducting-niobium-cavities-at-low-microwave-field-amplitudes/
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https://quantum.fnal.gov/wp-sitemap-posts-page-1.xml
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https://quantum.fnal.gov/wp-sitemap-posts-post-1.xml
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https://quantum.fnal.gov/wp-sitemap-taxonomies-category-1.xml
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https://quantum.fnal.gov/wp-sitemap-taxonomies-post_tag-1.xml
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https://quantum.fnal.gov/wp-sitemap-users-1.xml |