Radon transform of the constellation diagram. by Jinrong Liang (3918740)

“…After applying Taylor pruning to the model, its floating-point operations (FLOPs) were reduced from 40.5 M to 9.5 M, and its parameter memory was decreased from 2.6 M to 0.5 M. …”

The process of Taylor score pruning. by Jinrong Liang (3918740)

“…After applying Taylor pruning to the model, its floating-point operations (FLOPs) were reduced from 40.5 M to 9.5 M, and its parameter memory was decreased from 2.6 M to 0.5 M. …”

The principle of Radon transformation. by Jinrong Liang (3918740)

“…After applying Taylor pruning to the model, its floating-point operations (FLOPs) were reduced from 40.5 M to 9.5 M, and its parameter memory was decreased from 2.6 M to 0.5 M. …”

Ring constellation diagram. by Jinrong Liang (3918740)

“…After applying Taylor pruning to the model, its floating-point operations (FLOPs) were reduced from 40.5 M to 9.5 M, and its parameter memory was decreased from 2.6 M to 0.5 M. …”

Representative examples of ACE-2, TMPRSS2, Cathepsin B, and Cathepsin L positive immunostaining on conjunctival and limbal superficial epithelial cells retrieved by impression cyto... by Corantin Maurin (9155070)

Immunostaining of targeted proteins in VERO E6 cells. by Corantin Maurin (9155070)

Fig 1 - by Corantin Maurin (9155070)

SEM and TEM exploration of SARS-CoV-2 viral particles at the ocular surface. by Corantin Maurin (9155070)

Immunostaining of SARS-CoV-2 proteins. by Corantin Maurin (9155070)

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. …”

Fig 4 - by Corantin Maurin (9155070)

Akt3 depletion results in micronuclei formation. by Zachary J. Hough (20840430)