Containing the enlargement factor increases the possibility of identification of the large displacement vectors and the accuracy of the tracking. by Samuel E. Haarman (12908291)

Large deletions detected in sequenced dogs. by Erik Axelsson (201248)

The steps we follow to train and validate a predictive model for categorizing an evaluator’s opinion toward a contributor’s pull request as likely to increase, decrease, or not affect trust. by Hitesh Sapkota (8201127)

The two mechanisms of increase. by Jakub Köry (17980273)

Task variability/correlations decrease independently of mean task activity removal step in fMRI data. by Takuya Ito (57473)

Loss of <i>ULP2</i> leads to increased genome instability. by Marzia Rizzo (14305317)

Subjects:

Forbush Decrease Catalog at MESSENGER by Emma Davies (12046748)

“…<p>For each Forbush decrease (Fd) identified, we list the associated ICME boundary times i.e. the ICME start, magnetic ejecta (ME) start, and the ICME end times in ISO standard. …”

The percentages of genes with largely changed expression after AdNKX2-1 infection. by Yuko Ito (1976692)

Subjects:

The RVF clinical phenotype in CC057 mice is not sex-dependent and was observed at increasing challenge doses. by Haley N. Cartwright (9265247)

The increased abundance of TKT during infections and NETosis. by Donporn Riyapa (742367)

Tuberin_[1–677] overexpression significantly increased cell proliferation when compared to Tuberin-WT and control transfected cells. by Adam Pillon (13229142)

Increased Crystal Field Drives Intermediate Coupling and Minimizes Decoherence in Tetravalent Praseodymium Qubits by Arun Ramanathan (9992643)

“…We demonstrate a relatively large hyperfine interaction of <i>A</i>_iso = 1800 MHz for Pr⁴⁺, coherent manipulation of the spin with <i>Q</i>_M = 2Ω_R<i>T</i>_m, reaching up to ∼400 for <b>0.1Pr:BSO</b> at <i>T</i> = 5 K, and significant improvement of the temperature at which <i>T</i>_m is limited by <i>T</i>₁ (<i>T</i>* = 60 K) compared to other RE ion qubits.…”

Increased Crystal Field Drives Intermediate Coupling and Minimizes Decoherence in Tetravalent Praseodymium Qubits by Arun Ramanathan (9992643)

“…We demonstrate a relatively large hyperfine interaction of <i>A</i>_iso = 1800 MHz for Pr⁴⁺, coherent manipulation of the spin with <i>Q</i>_M = 2Ω_R<i>T</i>_m, reaching up to ∼400 for <b>0.1Pr:BSO</b> at <i>T</i> = 5 K, and significant improvement of the temperature at which <i>T</i>_m is limited by <i>T</i>₁ (<i>T</i>* = 60 K) compared to other RE ion qubits.…”

Increased Crystal Field Drives Intermediate Coupling and Minimizes Decoherence in Tetravalent Praseodymium Qubits by Arun Ramanathan (9992643)

“…We demonstrate a relatively large hyperfine interaction of <i>A</i>_iso = 1800 MHz for Pr⁴⁺, coherent manipulation of the spin with <i>Q</i>_M = 2Ω_R<i>T</i>_m, reaching up to ∼400 for <b>0.1Pr:BSO</b> at <i>T</i> = 5 K, and significant improvement of the temperature at which <i>T</i>_m is limited by <i>T</i>₁ (<i>T</i>* = 60 K) compared to other RE ion qubits.…”

Increased Crystal Field Drives Intermediate Coupling and Minimizes Decoherence in Tetravalent Praseodymium Qubits by Arun Ramanathan (9992643)

“…We demonstrate a relatively large hyperfine interaction of <i>A</i>_iso = 1800 MHz for Pr⁴⁺, coherent manipulation of the spin with <i>Q</i>_M = 2Ω_R<i>T</i>_m, reaching up to ∼400 for <b>0.1Pr:BSO</b> at <i>T</i> = 5 K, and significant improvement of the temperature at which <i>T</i>_m is limited by <i>T</i>₁ (<i>T</i>* = 60 K) compared to other RE ion qubits.…”

Increased Crystal Field Drives Intermediate Coupling and Minimizes Decoherence in Tetravalent Praseodymium Qubits by Arun Ramanathan (9992643)

“…We demonstrate a relatively large hyperfine interaction of <i>A</i>_iso = 1800 MHz for Pr⁴⁺, coherent manipulation of the spin with <i>Q</i>_M = 2Ω_R<i>T</i>_m, reaching up to ∼400 for <b>0.1Pr:BSO</b> at <i>T</i> = 5 K, and significant improvement of the temperature at which <i>T</i>_m is limited by <i>T</i>₁ (<i>T</i>* = 60 K) compared to other RE ion qubits.…”

Increased Crystal Field Drives Intermediate Coupling and Minimizes Decoherence in Tetravalent Praseodymium Qubits by Arun Ramanathan (9992643)

“…We demonstrate a relatively large hyperfine interaction of <i>A</i>_iso = 1800 MHz for Pr⁴⁺, coherent manipulation of the spin with <i>Q</i>_M = 2Ω_R<i>T</i>_m, reaching up to ∼400 for <b>0.1Pr:BSO</b> at <i>T</i> = 5 K, and significant improvement of the temperature at which <i>T</i>_m is limited by <i>T</i>₁ (<i>T</i>* = 60 K) compared to other RE ion qubits.…”

Increased Crystal Field Drives Intermediate Coupling and Minimizes Decoherence in Tetravalent Praseodymium Qubits by Arun Ramanathan (9992643)

“…We demonstrate a relatively large hyperfine interaction of <i>A</i>_iso = 1800 MHz for Pr⁴⁺, coherent manipulation of the spin with <i>Q</i>_M = 2Ω_R<i>T</i>_m, reaching up to ∼400 for <b>0.1Pr:BSO</b> at <i>T</i> = 5 K, and significant improvement of the temperature at which <i>T</i>_m is limited by <i>T</i>₁ (<i>T</i>* = 60 K) compared to other RE ion qubits.…”

Increased Crystal Field Drives Intermediate Coupling and Minimizes Decoherence in Tetravalent Praseodymium Qubits by Arun Ramanathan (9992643)

“…We demonstrate a relatively large hyperfine interaction of <i>A</i>_iso = 1800 MHz for Pr⁴⁺, coherent manipulation of the spin with <i>Q</i>_M = 2Ω_R<i>T</i>_m, reaching up to ∼400 for <b>0.1Pr:BSO</b> at <i>T</i> = 5 K, and significant improvement of the temperature at which <i>T</i>_m is limited by <i>T</i>₁ (<i>T</i>* = 60 K) compared to other RE ion qubits.…”

Increased Crystal Field Drives Intermediate Coupling and Minimizes Decoherence in Tetravalent Praseodymium Qubits by Arun Ramanathan (9992643)

“…We demonstrate a relatively large hyperfine interaction of <i>A</i>_iso = 1800 MHz for Pr⁴⁺, coherent manipulation of the spin with <i>Q</i>_M = 2Ω_R<i>T</i>_m, reaching up to ∼400 for <b>0.1Pr:BSO</b> at <i>T</i> = 5 K, and significant improvement of the temperature at which <i>T</i>_m is limited by <i>T</i>₁ (<i>T</i>* = 60 K) compared to other RE ion qubits.…”