Hoenk, M.E.; Jewell, A.D.; Kyne, G.; Hennessy, J.; Jones, T.; Shapiro, C.; Bush, N.; Nikzad, S.; Morris, D.; Lawrie, K.;
et al. Surface Passivation by Quantum Exclusion: On the Quantum Efficiency and Stability of Delta-Doped CCDs and CMOS Image Sensors in Space. Sensors 2023, 23, 9857.
https://doi.org/10.3390/s23249857
AMA Style
Hoenk ME, Jewell AD, Kyne G, Hennessy J, Jones T, Shapiro C, Bush N, Nikzad S, Morris D, Lawrie K,
et al. Surface Passivation by Quantum Exclusion: On the Quantum Efficiency and Stability of Delta-Doped CCDs and CMOS Image Sensors in Space. Sensors. 2023; 23(24):9857.
https://doi.org/10.3390/s23249857
Chicago/Turabian Style
Hoenk, Michael E., April D. Jewell, Gillian Kyne, John Hennessy, Todd Jones, Charles Shapiro, Nathan Bush, Shouleh Nikzad, David Morris, Katherine Lawrie,
and et al. 2023. "Surface Passivation by Quantum Exclusion: On the Quantum Efficiency and Stability of Delta-Doped CCDs and CMOS Image Sensors in Space" Sensors 23, no. 24: 9857.
https://doi.org/10.3390/s23249857
APA Style
Hoenk, M. E., Jewell, A. D., Kyne, G., Hennessy, J., Jones, T., Shapiro, C., Bush, N., Nikzad, S., Morris, D., Lawrie, K., & Skottfelt, J.
(2023). Surface Passivation by Quantum Exclusion: On the Quantum Efficiency and Stability of Delta-Doped CCDs and CMOS Image Sensors in Space. Sensors, 23(24), 9857.
https://doi.org/10.3390/s23249857
