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

“…Herein, the magnitude of the CF is increased via control of the RE oxidation state. The enhanced 4f metal–ligand covalency in Pr⁴⁺ gives rise to CF energy scales that compete with the spin–orbit coupling of Pr⁴⁺ and thereby shifts the paradigm from the ionic ζ_SOC ≫ <i>V</i>_CF limit, used to describe trivalent RE-ion, to an intermediate coupling (IC) regime. …”

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

“…Herein, the magnitude of the CF is increased via control of the RE oxidation state. The enhanced 4f metal–ligand covalency in Pr⁴⁺ gives rise to CF energy scales that compete with the spin–orbit coupling of Pr⁴⁺ and thereby shifts the paradigm from the ionic ζ_SOC ≫ <i>V</i>_CF limit, used to describe trivalent RE-ion, to an intermediate coupling (IC) regime. …”

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

“…Herein, the magnitude of the CF is increased via control of the RE oxidation state. The enhanced 4f metal–ligand covalency in Pr⁴⁺ gives rise to CF energy scales that compete with the spin–orbit coupling of Pr⁴⁺ and thereby shifts the paradigm from the ionic ζ_SOC ≫ <i>V</i>_CF limit, used to describe trivalent RE-ion, to an intermediate coupling (IC) regime. …”

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

“…Herein, the magnitude of the CF is increased via control of the RE oxidation state. The enhanced 4f metal–ligand covalency in Pr⁴⁺ gives rise to CF energy scales that compete with the spin–orbit coupling of Pr⁴⁺ and thereby shifts the paradigm from the ionic ζ_SOC ≫ <i>V</i>_CF limit, used to describe trivalent RE-ion, to an intermediate coupling (IC) regime. …”

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

“…Herein, the magnitude of the CF is increased via control of the RE oxidation state. The enhanced 4f metal–ligand covalency in Pr⁴⁺ gives rise to CF energy scales that compete with the spin–orbit coupling of Pr⁴⁺ and thereby shifts the paradigm from the ionic ζ_SOC ≫ <i>V</i>_CF limit, used to describe trivalent RE-ion, to an intermediate coupling (IC) regime. …”

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

“…Herein, the magnitude of the CF is increased via control of the RE oxidation state. The enhanced 4f metal–ligand covalency in Pr⁴⁺ gives rise to CF energy scales that compete with the spin–orbit coupling of Pr⁴⁺ and thereby shifts the paradigm from the ionic ζ_SOC ≫ <i>V</i>_CF limit, used to describe trivalent RE-ion, to an intermediate coupling (IC) regime. …”

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

“…Herein, the magnitude of the CF is increased via control of the RE oxidation state. The enhanced 4f metal–ligand covalency in Pr⁴⁺ gives rise to CF energy scales that compete with the spin–orbit coupling of Pr⁴⁺ and thereby shifts the paradigm from the ionic ζ_SOC ≫ <i>V</i>_CF limit, used to describe trivalent RE-ion, to an intermediate coupling (IC) regime. …”

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

“…Herein, the magnitude of the CF is increased via control of the RE oxidation state. The enhanced 4f metal–ligand covalency in Pr⁴⁺ gives rise to CF energy scales that compete with the spin–orbit coupling of Pr⁴⁺ and thereby shifts the paradigm from the ionic ζ_SOC ≫ <i>V</i>_CF limit, used to describe trivalent RE-ion, to an intermediate coupling (IC) regime. …”

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

“…Herein, the magnitude of the CF is increased via control of the RE oxidation state. The enhanced 4f metal–ligand covalency in Pr⁴⁺ gives rise to CF energy scales that compete with the spin–orbit coupling of Pr⁴⁺ and thereby shifts the paradigm from the ionic ζ_SOC ≫ <i>V</i>_CF limit, used to describe trivalent RE-ion, to an intermediate coupling (IC) regime. …”

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

“…Herein, the magnitude of the CF is increased via control of the RE oxidation state. The enhanced 4f metal–ligand covalency in Pr⁴⁺ gives rise to CF energy scales that compete with the spin–orbit coupling of Pr⁴⁺ and thereby shifts the paradigm from the ionic ζ_SOC ≫ <i>V</i>_CF limit, used to describe trivalent RE-ion, to an intermediate coupling (IC) regime. …”

DataSheet3_Coprophagy Prevention Decreases the Reproductive Performance and Granulosa Cell Apoptosis via Regulation of CTSB Gene in Rabbits.docx by Guohua Song (5152595)

“…Overexpression of CTSB increased secretion of progesterone and estradiol, partly via upregulation of CYP19A1 while inhibition of CTSB decreased progesterone secretion partly via downregulation of the StAR gene. …”

DataSheet2_Coprophagy Prevention Decreases the Reproductive Performance and Granulosa Cell Apoptosis via Regulation of CTSB Gene in Rabbits.ZIP by Guohua Song (5152595)

“…Overexpression of CTSB increased secretion of progesterone and estradiol, partly via upregulation of CYP19A1 while inhibition of CTSB decreased progesterone secretion partly via downregulation of the StAR gene. …”

DataSheet1_Coprophagy Prevention Decreases the Reproductive Performance and Granulosa Cell Apoptosis via Regulation of CTSB Gene in Rabbits.ZIP by Guohua Song (5152595)

“…Overexpression of CTSB increased secretion of progesterone and estradiol, partly via upregulation of CYP19A1 while inhibition of CTSB decreased progesterone secretion partly via downregulation of the StAR gene. …”

Brief Report: Increased technology use associated with lower A1C in a large pediatric clinical population by G. Todd Alonso (9568724)

M⁶A-mediated up-regulation of LncRNA LIFR-AS1 enhances the progression of pancreatic cancer via miRNA-150-5p/ VEGFA/Akt signaling by Jian-Qing Chen (8271900)

“…However, the exact role of m⁶A induced LIFR-AS1 in pancreatic cancer (PC) and its potential molecular mechanisms remain largely unknown. …”

Tethering influenza antibodies increases breadth and potency. by Tal Einav (2629669)

DataSheet2_Aristolochic acid I exposure decreases oocyte quality.xlsx by Weidong Li (292436)

“…<p>Oocyte quality is a determinant of a successful pregnancy. The final step of oocyte development is oocyte maturation, which is susceptible to environmental exposures. …”

DataSheet1_Aristolochic acid I exposure decreases oocyte quality.xlsx by Weidong Li (292436)

“…<p>Oocyte quality is a determinant of a successful pregnancy. The final step of oocyte development is oocyte maturation, which is susceptible to environmental exposures. …”

DataSheet4_Aristolochic acid I exposure decreases oocyte quality.pdf by Weidong Li (292436)

“…<p>Oocyte quality is a determinant of a successful pregnancy. The final step of oocyte development is oocyte maturation, which is susceptible to environmental exposures. …”

DataSheet3_Aristolochic acid I exposure decreases oocyte quality.pdf by Weidong Li (292436)

“…<p>Oocyte quality is a determinant of a successful pregnancy. The final step of oocyte development is oocyte maturation, which is susceptible to environmental exposures. …”