MujicΛ augments L-BFGS optimization with projection and rank-order matching to reconstruct Gaussian initial conditions from incomplete redshift surveys, achieving good agreement with true fields on Millennium simulation mocks.
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4 Pith papers cite this work. Polarity classification is still indexing.
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UNVERDICTED 4representative citing papers
Exact and perturbative drag forces are derived for heavy quarks in holographic plasmas dual to charged rotating 5D black holes, with regularity conditions fixing integration constants and yielding finite anisotropic corrections.
New graph neural network and convolutional neural network reconstructions of neutrino inelasticity are developed and used to statistically separate neutrinos from antineutrinos, yielding updated neutrino mass ordering sensitivities for IceCube DeepCore and Upgrade.
A compact multi-PMT digital optical module with 4x photon sensitivity and reduced borehole size has been designed and prototyped for the IceCube-Gen2 neutrino observatory.
citing papers explorer
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Mujic{\Lambda}: Reconstructing Initial Conditions from Incomplete Redshift Surveys with Projected Optimization
MujicΛ augments L-BFGS optimization with projection and rank-order matching to reconstruct Gaussian initial conditions from incomplete redshift surveys, achieving good agreement with true fields on Millennium simulation mocks.
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Anisotropic drag force in finite-density QGP from charged rotating 5D black holes
Exact and perturbative drag forces are derived for heavy quarks in holographic plasmas dual to charged rotating 5D black holes, with regularity conditions fixing integration constants and yielding finite anisotropic corrections.
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Incorporating Inelasticity Reconstruction into Neutrino Mass Ordering Studies with IceCube
New graph neural network and convolutional neural network reconstructions of neutrino inelasticity are developed and used to statistically separate neutrinos from antineutrinos, yielding updated neutrino mass ordering sensitivities for IceCube DeepCore and Upgrade.
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Development of the New Optical Sensor for IceCube-Gen2
A compact multi-PMT digital optical module with 4x photon sensitivity and reduced borehole size has been designed and prototyped for the IceCube-Gen2 neutrino observatory.