Trade-Off for Better Balanced Nonlinear Optical Performance with Disordered Si in ZnGeP₂ by Shunda Yang (8086265)

“…Theoretical calculations with special quasirandom structures show that the NLO coefficient decreases gradually with increasing Si content, but the decrease is tiny in the 0–50% range and acute in the 50–100% range of Si. …”

Trade-Off for Better Balanced Nonlinear Optical Performance with Disordered Si in ZnGeP₂ by Shunda Yang (8086265)

“…Theoretical calculations with special quasirandom structures show that the NLO coefficient decreases gradually with increasing Si content, but the decrease is tiny in the 0–50% range and acute in the 50–100% range of Si. …”

Trade-Off for Better Balanced Nonlinear Optical Performance with Disordered Si in ZnGeP₂ by Shunda Yang (8086265)

“…Theoretical calculations with special quasirandom structures show that the NLO coefficient decreases gradually with increasing Si content, but the decrease is tiny in the 0–50% range and acute in the 50–100% range of Si. …”

Trade-Off for Better Balanced Nonlinear Optical Performance with Disordered Si in ZnGeP₂ by Shunda Yang (8086265)

“…Theoretical calculations with special quasirandom structures show that the NLO coefficient decreases gradually with increasing Si content, but the decrease is tiny in the 0–50% range and acute in the 50–100% range of Si. …”

Trade-Off for Better Balanced Nonlinear Optical Performance with Disordered Si in ZnGeP₂ by Shunda Yang (8086265)

“…Theoretical calculations with special quasirandom structures show that the NLO coefficient decreases gradually with increasing Si content, but the decrease is tiny in the 0–50% range and acute in the 50–100% range of Si. …”

Trade-Off for Better Balanced Nonlinear Optical Performance with Disordered Si in ZnGeP₂ by Shunda Yang (8086265)

“…Theoretical calculations with special quasirandom structures show that the NLO coefficient decreases gradually with increasing Si content, but the decrease is tiny in the 0–50% range and acute in the 50–100% range of Si. …”

Trade-Off for Better Balanced Nonlinear Optical Performance with Disordered Si in ZnGeP₂ by Shunda Yang (8086265)

“…Theoretical calculations with special quasirandom structures show that the NLO coefficient decreases gradually with increasing Si content, but the decrease is tiny in the 0–50% range and acute in the 50–100% range of Si. …”

Trade-Off for Better Balanced Nonlinear Optical Performance with Disordered Si in ZnGeP₂ by Shunda Yang (8086265)

“…Theoretical calculations with special quasirandom structures show that the NLO coefficient decreases gradually with increasing Si content, but the decrease is tiny in the 0–50% range and acute in the 50–100% range of Si. …”

Trade-Off for Better Balanced Nonlinear Optical Performance with Disordered Si in ZnGeP₂ by Shunda Yang (8086265)

“…Theoretical calculations with special quasirandom structures show that the NLO coefficient decreases gradually with increasing Si content, but the decrease is tiny in the 0–50% range and acute in the 50–100% range of Si. …”

Depletion of SAMHD1 induces R-loop-mediated genome instability and cellular DNA damage response. by Kiwon Park (6492266)

General strength and conditioning versus motor control with manual therapy for improving depressive symptoms in chronic low back pain: A randomised feasibility trial by Megan Teychenne (709831)

“…</p><p>Results</p><p>Mean CES-D 10 score at baseline was 9.17 (SD = 4.32). …”

Colorectal cancer-relevant SAMHD1 mutants are associated with TRCs in U2OS cells. by Kiwon Park (6492266)

Representative immunostaining of ACE-2, TMPRSS2, Cathepsin B, and Cathepsin L in cryosections of 0.5% PFA-fixed fresh human corneas. by Corantin Maurin (9155070)

Depletion of SAMHD1 does not affect cellular apoptosis or cell cycle arrest. by Kiwon Park (6492266)

Figure S2: Depletion of RASSF1A alone or with RASSF1C results in disappearance of tight junctions and decrease of adherens junction, replaced by diffuse adherent junctions. from RA... by Fatéméh Dubois (5846192)

PACAP counteracts hypoglycaemia-induced ER stress in NSCs. by Shiva Mansouri (2838086)

GLP-1R activation by Ex-4 did not protect NSCs from hypoglycaemic <i>milieu</i>. by Shiva Mansouri (2838086)

Fixed Peripapillary Thickness. by Harry A. Quigley (695817)

Blood pressure data. by Harry A. Quigley (695817)

Axial length and width. by Harry A. Quigley (695817)