Abstract

Complementary metal-oxide semiconductor (CMOS)-hybrid arrays have become competitive optical detectors for use in ground- and space-based astronomy. Interpixel capacitance (IPC) is one source of error that appears in most CMOS arrays. In this paper, we use a single-pixel-reset method to model IPC. We combine this IPC model with a model for charge diffusion to estimate the total crosstalk on H4RG-10 arrays. Finally, we compare our model results to 55Fe data obtained using an astrometric camera built to test the H4RG-10 B0 generation detectors.

© 2012 Optical Society of America

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  3. B. N. Dorland, R. P. Dudik, D. Veillette, R. Swindle, A. Waczynski, and E. Kan, “Initial laboratory and sky testing results for the second generation H4RG-10 4k×4k, 10 micron visible CMOS-hybrid detector,” Proc. SPIE 743974390E (2009).
  4. J. Hubbs, B. Starr, R. Dudik, M. Farris, A. Wong, P. Marshall, G. Luppino, Y. Bai, M. Xu, D. Cooper, E. Holland, T. Sprafke, R. Ricardo, S. Anglin, and J. Beletic, “High performance 4096×4096 pixel imaging sensors for the JMAPS Astrometry Mission,” presented at the Military Science Symposium, Orlando, Florida, USA, 2011.
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2009

B. N. Dorland, R. P. Dudik, D. Veillette, R. Swindle, A. Waczynski, and E. Kan, “Initial laboratory and sky testing results for the second generation H4RG-10 4k×4k, 10 micron visible CMOS-hybrid detector,” Proc. SPIE 743974390E (2009).

2008

S. Seshadri, D. M. Cole, B. R. Hancock, and R. M. Smith, “Mapping electrical crosstalk in pixelated sensor arrays,” Proc. SPIE 7021, 1–10 (2008).

2007

B. N. Dorland, G. S. Hennessy, N. Zacharias, D. G. Money, H. Harris, C. Rollins, P. Shu, L. Miko, B. Mott, A. Waczynski, E. Kan, and G. Delo, “Laboratory and sky testing results for the TIS H4RG-10 4k×4k 10-micron visible CMOS-hybrid detector,” Proc. SPIE 66906690D (2007).

2006

J. Janesick, J. T. Andrews, and T. Elliot, “Fundamental performance differences between CMOS and CCD imagers: Part I,” Proc. SPIE 6267, 62760M (2006).
[CrossRef]

G. Finger, R. Dorn, M. Meyer, L. Mehrgan, A. F. M. Moorewood, and J. Stegmeier, “Interpixel capacitance in large format CMOS hybrid arrays,” Proc. SPIE 6276, 62760F (2006).
[CrossRef]

J. A. Fairfield, D. E. Groom, S. J. Bailey, C. J. Bebek, S. E. Holland, A. Karcher, W. F. Koble, W. Lorenzon, and N. A. Roe, “Reduced charge diffusion in thick, fully depleted CCDs, with enhanced red sensitivity,” IEEE Trans. Nucl. Sci. 53, 3877–3881 (2006).

2004

A. Karcher, C. J. Bebek, W. F. Kolbe, D. Maurath, V. Prasad, M. Uslenghi, and M. Wagner, “Measurement of lateral charge diffusion in thick, fully depleted, back-illuminated CCDs,” IEEE Trans. Nucl. Sci. 51, 55685 (2004).

A. C. Moore, Z. Ninkov, and W. J. Forrest, “Interpixel capacitance in non-destructive focal plane arrays,” Proc. SPIE 5167, 204–215 (2004).
[CrossRef]

Andrews, J. T.

J. Janesick, J. T. Andrews, and T. Elliot, “Fundamental performance differences between CMOS and CCD imagers: Part I,” Proc. SPIE 6267, 62760M (2006).
[CrossRef]

Angelin, S.

Y. Bai, W. Tennant, S. Angelin, M. Xu, M. Farris, A. Wong, E. Holland, D. Cooper, J. Hosack, B. Starr, R. Blank, and J. W. Beletic, “Large high density hybrid silicon arrays,” presented at the Military Science Symposium (2012).

Anglin, S.

J. Hubbs, B. Starr, R. Dudik, M. Farris, A. Wong, P. Marshall, G. Luppino, Y. Bai, M. Xu, D. Cooper, E. Holland, T. Sprafke, R. Ricardo, S. Anglin, and J. Beletic, “High performance 4096×4096 pixel imaging sensors for the JMAPS Astrometry Mission,” presented at the Military Science Symposium, Orlando, Florida, USA, 2011.

Bai, Y.

J. Hubbs, B. Starr, R. Dudik, M. Farris, A. Wong, P. Marshall, G. Luppino, Y. Bai, M. Xu, D. Cooper, E. Holland, T. Sprafke, R. Ricardo, S. Anglin, and J. Beletic, “High performance 4096×4096 pixel imaging sensors for the JMAPS Astrometry Mission,” presented at the Military Science Symposium, Orlando, Florida, USA, 2011.

Y. Bai, W. Tennant, S. Angelin, M. Xu, M. Farris, A. Wong, E. Holland, D. Cooper, J. Hosack, B. Starr, R. Blank, and J. W. Beletic, “Large high density hybrid silicon arrays,” presented at the Military Science Symposium (2012).

Bailey, S. J.

J. A. Fairfield, D. E. Groom, S. J. Bailey, C. J. Bebek, S. E. Holland, A. Karcher, W. F. Koble, W. Lorenzon, and N. A. Roe, “Reduced charge diffusion in thick, fully depleted CCDs, with enhanced red sensitivity,” IEEE Trans. Nucl. Sci. 53, 3877–3881 (2006).

Bebek, C. J.

J. A. Fairfield, D. E. Groom, S. J. Bailey, C. J. Bebek, S. E. Holland, A. Karcher, W. F. Koble, W. Lorenzon, and N. A. Roe, “Reduced charge diffusion in thick, fully depleted CCDs, with enhanced red sensitivity,” IEEE Trans. Nucl. Sci. 53, 3877–3881 (2006).

A. Karcher, C. J. Bebek, W. F. Kolbe, D. Maurath, V. Prasad, M. Uslenghi, and M. Wagner, “Measurement of lateral charge diffusion in thick, fully depleted, back-illuminated CCDs,” IEEE Trans. Nucl. Sci. 51, 55685 (2004).

Beletic, J.

J. Hubbs, B. Starr, R. Dudik, M. Farris, A. Wong, P. Marshall, G. Luppino, Y. Bai, M. Xu, D. Cooper, E. Holland, T. Sprafke, R. Ricardo, S. Anglin, and J. Beletic, “High performance 4096×4096 pixel imaging sensors for the JMAPS Astrometry Mission,” presented at the Military Science Symposium, Orlando, Florida, USA, 2011.

Beletic, J. W.

Y. Bai, W. Tennant, S. Angelin, M. Xu, M. Farris, A. Wong, E. Holland, D. Cooper, J. Hosack, B. Starr, R. Blank, and J. W. Beletic, “Large high density hybrid silicon arrays,” presented at the Military Science Symposium (2012).

Blank, R.

Y. Bai, W. Tennant, S. Angelin, M. Xu, M. Farris, A. Wong, E. Holland, D. Cooper, J. Hosack, B. Starr, R. Blank, and J. W. Beletic, “Large high density hybrid silicon arrays,” presented at the Military Science Symposium (2012).

Cheng, L.

L. Cheng, “Interpixel Capacitive Coupling,” thesis, RIT Digital Media Library Repository, https://ritdml.rit.edu/handle/1850/8414 .

Cole, D. M.

S. Seshadri, D. M. Cole, B. R. Hancock, and R. M. Smith, “Mapping electrical crosstalk in pixelated sensor arrays,” Proc. SPIE 7021, 1–10 (2008).

Cooper, D.

J. Hubbs, B. Starr, R. Dudik, M. Farris, A. Wong, P. Marshall, G. Luppino, Y. Bai, M. Xu, D. Cooper, E. Holland, T. Sprafke, R. Ricardo, S. Anglin, and J. Beletic, “High performance 4096×4096 pixel imaging sensors for the JMAPS Astrometry Mission,” presented at the Military Science Symposium, Orlando, Florida, USA, 2011.

Y. Bai, W. Tennant, S. Angelin, M. Xu, M. Farris, A. Wong, E. Holland, D. Cooper, J. Hosack, B. Starr, R. Blank, and J. W. Beletic, “Large high density hybrid silicon arrays,” presented at the Military Science Symposium (2012).

Delo, G.

B. N. Dorland, G. S. Hennessy, N. Zacharias, D. G. Money, H. Harris, C. Rollins, P. Shu, L. Miko, B. Mott, A. Waczynski, E. Kan, and G. Delo, “Laboratory and sky testing results for the TIS H4RG-10 4k×4k 10-micron visible CMOS-hybrid detector,” Proc. SPIE 66906690D (2007).

Dorland, B. N.

B. N. Dorland, R. P. Dudik, D. Veillette, R. Swindle, A. Waczynski, and E. Kan, “Initial laboratory and sky testing results for the second generation H4RG-10 4k×4k, 10 micron visible CMOS-hybrid detector,” Proc. SPIE 743974390E (2009).

B. N. Dorland, G. S. Hennessy, N. Zacharias, D. G. Money, H. Harris, C. Rollins, P. Shu, L. Miko, B. Mott, A. Waczynski, E. Kan, and G. Delo, “Laboratory and sky testing results for the TIS H4RG-10 4k×4k 10-micron visible CMOS-hybrid detector,” Proc. SPIE 66906690D (2007).

B. N. Dorland, D. Veillette, B. Lane, R. P. Dudik, M. Jordan, J. Waterman, A. Waczynski, C. Rollins, and S. Pravdo, US Naval Observatory, 3450 Massachusetts Avenue, Washington, D.C. 20392, USA, are preparing a manuscript to be called “Effects of pixel crosstalk on astronomical measurements using a large format CMOS-hybrid detector.”

Dorn, R.

G. Finger, R. Dorn, M. Meyer, L. Mehrgan, A. F. M. Moorewood, and J. Stegmeier, “Interpixel capacitance in large format CMOS hybrid arrays,” Proc. SPIE 6276, 62760F (2006).
[CrossRef]

Dudik, R.

J. Hubbs, B. Starr, R. Dudik, M. Farris, A. Wong, P. Marshall, G. Luppino, Y. Bai, M. Xu, D. Cooper, E. Holland, T. Sprafke, R. Ricardo, S. Anglin, and J. Beletic, “High performance 4096×4096 pixel imaging sensors for the JMAPS Astrometry Mission,” presented at the Military Science Symposium, Orlando, Florida, USA, 2011.

Dudik, R. P.

B. N. Dorland, R. P. Dudik, D. Veillette, R. Swindle, A. Waczynski, and E. Kan, “Initial laboratory and sky testing results for the second generation H4RG-10 4k×4k, 10 micron visible CMOS-hybrid detector,” Proc. SPIE 743974390E (2009).

B. N. Dorland, D. Veillette, B. Lane, R. P. Dudik, M. Jordan, J. Waterman, A. Waczynski, C. Rollins, and S. Pravdo, US Naval Observatory, 3450 Massachusetts Avenue, Washington, D.C. 20392, USA, are preparing a manuscript to be called “Effects of pixel crosstalk on astronomical measurements using a large format CMOS-hybrid detector.”

Elliot, T.

J. Janesick, J. T. Andrews, and T. Elliot, “Fundamental performance differences between CMOS and CCD imagers: Part I,” Proc. SPIE 6267, 62760M (2006).
[CrossRef]

Fairfield, J. A.

J. A. Fairfield, D. E. Groom, S. J. Bailey, C. J. Bebek, S. E. Holland, A. Karcher, W. F. Koble, W. Lorenzon, and N. A. Roe, “Reduced charge diffusion in thick, fully depleted CCDs, with enhanced red sensitivity,” IEEE Trans. Nucl. Sci. 53, 3877–3881 (2006).

Farris, M.

J. Hubbs, B. Starr, R. Dudik, M. Farris, A. Wong, P. Marshall, G. Luppino, Y. Bai, M. Xu, D. Cooper, E. Holland, T. Sprafke, R. Ricardo, S. Anglin, and J. Beletic, “High performance 4096×4096 pixel imaging sensors for the JMAPS Astrometry Mission,” presented at the Military Science Symposium, Orlando, Florida, USA, 2011.

Y. Bai, W. Tennant, S. Angelin, M. Xu, M. Farris, A. Wong, E. Holland, D. Cooper, J. Hosack, B. Starr, R. Blank, and J. W. Beletic, “Large high density hybrid silicon arrays,” presented at the Military Science Symposium (2012).

Finger, G.

G. Finger, R. Dorn, M. Meyer, L. Mehrgan, A. F. M. Moorewood, and J. Stegmeier, “Interpixel capacitance in large format CMOS hybrid arrays,” Proc. SPIE 6276, 62760F (2006).
[CrossRef]

Forrest, W. J.

A. C. Moore, Z. Ninkov, and W. J. Forrest, “Interpixel capacitance in non-destructive focal plane arrays,” Proc. SPIE 5167, 204–215 (2004).
[CrossRef]

Goldhaber, G.

S. E. Holland, G. Goldhaber, D. E. Groom, W. W. Moses, C. R. Pennypacker, S. Perlmutter, N. W. Wang, R. J. Stover, and M. Wei, “Development of back-illuminated, fully-depleted CCD image sensors for use in astronomy and astrophysics,” in Astronomy and Astrophysics, Proceedings of IEEE Workshop on Charge-Coupled Devices and Advanced Image Sensors (IEEE, 1997), pp. R26-1–R26-4.

Groom, D. E.

J. A. Fairfield, D. E. Groom, S. J. Bailey, C. J. Bebek, S. E. Holland, A. Karcher, W. F. Koble, W. Lorenzon, and N. A. Roe, “Reduced charge diffusion in thick, fully depleted CCDs, with enhanced red sensitivity,” IEEE Trans. Nucl. Sci. 53, 3877–3881 (2006).

S. E. Holland, G. Goldhaber, D. E. Groom, W. W. Moses, C. R. Pennypacker, S. Perlmutter, N. W. Wang, R. J. Stover, and M. Wei, “Development of back-illuminated, fully-depleted CCD image sensors for use in astronomy and astrophysics,” in Astronomy and Astrophysics, Proceedings of IEEE Workshop on Charge-Coupled Devices and Advanced Image Sensors (IEEE, 1997), pp. R26-1–R26-4.

Hancock, B. R.

S. Seshadri, D. M. Cole, B. R. Hancock, and R. M. Smith, “Mapping electrical crosstalk in pixelated sensor arrays,” Proc. SPIE 7021, 1–10 (2008).

Harris, H.

B. N. Dorland, G. S. Hennessy, N. Zacharias, D. G. Money, H. Harris, C. Rollins, P. Shu, L. Miko, B. Mott, A. Waczynski, E. Kan, and G. Delo, “Laboratory and sky testing results for the TIS H4RG-10 4k×4k 10-micron visible CMOS-hybrid detector,” Proc. SPIE 66906690D (2007).

Hennessy, G. S.

B. N. Dorland, G. S. Hennessy, N. Zacharias, D. G. Money, H. Harris, C. Rollins, P. Shu, L. Miko, B. Mott, A. Waczynski, E. Kan, and G. Delo, “Laboratory and sky testing results for the TIS H4RG-10 4k×4k 10-micron visible CMOS-hybrid detector,” Proc. SPIE 66906690D (2007).

Holland, E.

J. Hubbs, B. Starr, R. Dudik, M. Farris, A. Wong, P. Marshall, G. Luppino, Y. Bai, M. Xu, D. Cooper, E. Holland, T. Sprafke, R. Ricardo, S. Anglin, and J. Beletic, “High performance 4096×4096 pixel imaging sensors for the JMAPS Astrometry Mission,” presented at the Military Science Symposium, Orlando, Florida, USA, 2011.

Y. Bai, W. Tennant, S. Angelin, M. Xu, M. Farris, A. Wong, E. Holland, D. Cooper, J. Hosack, B. Starr, R. Blank, and J. W. Beletic, “Large high density hybrid silicon arrays,” presented at the Military Science Symposium (2012).

Holland, S. E.

J. A. Fairfield, D. E. Groom, S. J. Bailey, C. J. Bebek, S. E. Holland, A. Karcher, W. F. Koble, W. Lorenzon, and N. A. Roe, “Reduced charge diffusion in thick, fully depleted CCDs, with enhanced red sensitivity,” IEEE Trans. Nucl. Sci. 53, 3877–3881 (2006).

S. E. Holland, G. Goldhaber, D. E. Groom, W. W. Moses, C. R. Pennypacker, S. Perlmutter, N. W. Wang, R. J. Stover, and M. Wei, “Development of back-illuminated, fully-depleted CCD image sensors for use in astronomy and astrophysics,” in Astronomy and Astrophysics, Proceedings of IEEE Workshop on Charge-Coupled Devices and Advanced Image Sensors (IEEE, 1997), pp. R26-1–R26-4.

Hosack, J.

Y. Bai, W. Tennant, S. Angelin, M. Xu, M. Farris, A. Wong, E. Holland, D. Cooper, J. Hosack, B. Starr, R. Blank, and J. W. Beletic, “Large high density hybrid silicon arrays,” presented at the Military Science Symposium (2012).

Hubbs, J.

J. Hubbs, B. Starr, R. Dudik, M. Farris, A. Wong, P. Marshall, G. Luppino, Y. Bai, M. Xu, D. Cooper, E. Holland, T. Sprafke, R. Ricardo, S. Anglin, and J. Beletic, “High performance 4096×4096 pixel imaging sensors for the JMAPS Astrometry Mission,” presented at the Military Science Symposium, Orlando, Florida, USA, 2011.

Janesick, J.

J. Janesick, J. T. Andrews, and T. Elliot, “Fundamental performance differences between CMOS and CCD imagers: Part I,” Proc. SPIE 6267, 62760M (2006).
[CrossRef]

Janesick, J. R.

J. R. Janesick, Scientific Charge-Coupled Devices (SPIE, 2001).

Jordan, M.

B. N. Dorland, D. Veillette, B. Lane, R. P. Dudik, M. Jordan, J. Waterman, A. Waczynski, C. Rollins, and S. Pravdo, US Naval Observatory, 3450 Massachusetts Avenue, Washington, D.C. 20392, USA, are preparing a manuscript to be called “Effects of pixel crosstalk on astronomical measurements using a large format CMOS-hybrid detector.”

Kan, E.

B. N. Dorland, R. P. Dudik, D. Veillette, R. Swindle, A. Waczynski, and E. Kan, “Initial laboratory and sky testing results for the second generation H4RG-10 4k×4k, 10 micron visible CMOS-hybrid detector,” Proc. SPIE 743974390E (2009).

B. N. Dorland, G. S. Hennessy, N. Zacharias, D. G. Money, H. Harris, C. Rollins, P. Shu, L. Miko, B. Mott, A. Waczynski, E. Kan, and G. Delo, “Laboratory and sky testing results for the TIS H4RG-10 4k×4k 10-micron visible CMOS-hybrid detector,” Proc. SPIE 66906690D (2007).

Karcher, A.

J. A. Fairfield, D. E. Groom, S. J. Bailey, C. J. Bebek, S. E. Holland, A. Karcher, W. F. Koble, W. Lorenzon, and N. A. Roe, “Reduced charge diffusion in thick, fully depleted CCDs, with enhanced red sensitivity,” IEEE Trans. Nucl. Sci. 53, 3877–3881 (2006).

A. Karcher, C. J. Bebek, W. F. Kolbe, D. Maurath, V. Prasad, M. Uslenghi, and M. Wagner, “Measurement of lateral charge diffusion in thick, fully depleted, back-illuminated CCDs,” IEEE Trans. Nucl. Sci. 51, 55685 (2004).

Koble, W. F.

J. A. Fairfield, D. E. Groom, S. J. Bailey, C. J. Bebek, S. E. Holland, A. Karcher, W. F. Koble, W. Lorenzon, and N. A. Roe, “Reduced charge diffusion in thick, fully depleted CCDs, with enhanced red sensitivity,” IEEE Trans. Nucl. Sci. 53, 3877–3881 (2006).

Kolbe, W. F.

A. Karcher, C. J. Bebek, W. F. Kolbe, D. Maurath, V. Prasad, M. Uslenghi, and M. Wagner, “Measurement of lateral charge diffusion in thick, fully depleted, back-illuminated CCDs,” IEEE Trans. Nucl. Sci. 51, 55685 (2004).

Lane, B.

B. N. Dorland, D. Veillette, B. Lane, R. P. Dudik, M. Jordan, J. Waterman, A. Waczynski, C. Rollins, and S. Pravdo, US Naval Observatory, 3450 Massachusetts Avenue, Washington, D.C. 20392, USA, are preparing a manuscript to be called “Effects of pixel crosstalk on astronomical measurements using a large format CMOS-hybrid detector.”

Lorenzon, W.

J. A. Fairfield, D. E. Groom, S. J. Bailey, C. J. Bebek, S. E. Holland, A. Karcher, W. F. Koble, W. Lorenzon, and N. A. Roe, “Reduced charge diffusion in thick, fully depleted CCDs, with enhanced red sensitivity,” IEEE Trans. Nucl. Sci. 53, 3877–3881 (2006).

Luppino, G.

J. Hubbs, B. Starr, R. Dudik, M. Farris, A. Wong, P. Marshall, G. Luppino, Y. Bai, M. Xu, D. Cooper, E. Holland, T. Sprafke, R. Ricardo, S. Anglin, and J. Beletic, “High performance 4096×4096 pixel imaging sensors for the JMAPS Astrometry Mission,” presented at the Military Science Symposium, Orlando, Florida, USA, 2011.

Marshall, P.

J. Hubbs, B. Starr, R. Dudik, M. Farris, A. Wong, P. Marshall, G. Luppino, Y. Bai, M. Xu, D. Cooper, E. Holland, T. Sprafke, R. Ricardo, S. Anglin, and J. Beletic, “High performance 4096×4096 pixel imaging sensors for the JMAPS Astrometry Mission,” presented at the Military Science Symposium, Orlando, Florida, USA, 2011.

Maurath, D.

A. Karcher, C. J. Bebek, W. F. Kolbe, D. Maurath, V. Prasad, M. Uslenghi, and M. Wagner, “Measurement of lateral charge diffusion in thick, fully depleted, back-illuminated CCDs,” IEEE Trans. Nucl. Sci. 51, 55685 (2004).

Mehrgan, L.

G. Finger, R. Dorn, M. Meyer, L. Mehrgan, A. F. M. Moorewood, and J. Stegmeier, “Interpixel capacitance in large format CMOS hybrid arrays,” Proc. SPIE 6276, 62760F (2006).
[CrossRef]

Meyer, M.

G. Finger, R. Dorn, M. Meyer, L. Mehrgan, A. F. M. Moorewood, and J. Stegmeier, “Interpixel capacitance in large format CMOS hybrid arrays,” Proc. SPIE 6276, 62760F (2006).
[CrossRef]

Miko, L.

B. N. Dorland, G. S. Hennessy, N. Zacharias, D. G. Money, H. Harris, C. Rollins, P. Shu, L. Miko, B. Mott, A. Waczynski, E. Kan, and G. Delo, “Laboratory and sky testing results for the TIS H4RG-10 4k×4k 10-micron visible CMOS-hybrid detector,” Proc. SPIE 66906690D (2007).

Money, D. G.

B. N. Dorland, G. S. Hennessy, N. Zacharias, D. G. Money, H. Harris, C. Rollins, P. Shu, L. Miko, B. Mott, A. Waczynski, E. Kan, and G. Delo, “Laboratory and sky testing results for the TIS H4RG-10 4k×4k 10-micron visible CMOS-hybrid detector,” Proc. SPIE 66906690D (2007).

Moore, A. C.

A. C. Moore, Z. Ninkov, and W. J. Forrest, “Interpixel capacitance in non-destructive focal plane arrays,” Proc. SPIE 5167, 204–215 (2004).
[CrossRef]

Moorewood, A. F. M.

G. Finger, R. Dorn, M. Meyer, L. Mehrgan, A. F. M. Moorewood, and J. Stegmeier, “Interpixel capacitance in large format CMOS hybrid arrays,” Proc. SPIE 6276, 62760F (2006).
[CrossRef]

Moses, W. W.

S. E. Holland, G. Goldhaber, D. E. Groom, W. W. Moses, C. R. Pennypacker, S. Perlmutter, N. W. Wang, R. J. Stover, and M. Wei, “Development of back-illuminated, fully-depleted CCD image sensors for use in astronomy and astrophysics,” in Astronomy and Astrophysics, Proceedings of IEEE Workshop on Charge-Coupled Devices and Advanced Image Sensors (IEEE, 1997), pp. R26-1–R26-4.

Mott, B.

B. N. Dorland, G. S. Hennessy, N. Zacharias, D. G. Money, H. Harris, C. Rollins, P. Shu, L. Miko, B. Mott, A. Waczynski, E. Kan, and G. Delo, “Laboratory and sky testing results for the TIS H4RG-10 4k×4k 10-micron visible CMOS-hybrid detector,” Proc. SPIE 66906690D (2007).

Ninkov, Z.

A. C. Moore, Z. Ninkov, and W. J. Forrest, “Interpixel capacitance in non-destructive focal plane arrays,” Proc. SPIE 5167, 204–215 (2004).
[CrossRef]

Pennypacker, C. R.

S. E. Holland, G. Goldhaber, D. E. Groom, W. W. Moses, C. R. Pennypacker, S. Perlmutter, N. W. Wang, R. J. Stover, and M. Wei, “Development of back-illuminated, fully-depleted CCD image sensors for use in astronomy and astrophysics,” in Astronomy and Astrophysics, Proceedings of IEEE Workshop on Charge-Coupled Devices and Advanced Image Sensors (IEEE, 1997), pp. R26-1–R26-4.

Perlmutter, S.

S. E. Holland, G. Goldhaber, D. E. Groom, W. W. Moses, C. R. Pennypacker, S. Perlmutter, N. W. Wang, R. J. Stover, and M. Wei, “Development of back-illuminated, fully-depleted CCD image sensors for use in astronomy and astrophysics,” in Astronomy and Astrophysics, Proceedings of IEEE Workshop on Charge-Coupled Devices and Advanced Image Sensors (IEEE, 1997), pp. R26-1–R26-4.

Prasad, V.

A. Karcher, C. J. Bebek, W. F. Kolbe, D. Maurath, V. Prasad, M. Uslenghi, and M. Wagner, “Measurement of lateral charge diffusion in thick, fully depleted, back-illuminated CCDs,” IEEE Trans. Nucl. Sci. 51, 55685 (2004).

Pravdo, S.

B. N. Dorland, D. Veillette, B. Lane, R. P. Dudik, M. Jordan, J. Waterman, A. Waczynski, C. Rollins, and S. Pravdo, US Naval Observatory, 3450 Massachusetts Avenue, Washington, D.C. 20392, USA, are preparing a manuscript to be called “Effects of pixel crosstalk on astronomical measurements using a large format CMOS-hybrid detector.”

Ricardo, R.

J. Hubbs, B. Starr, R. Dudik, M. Farris, A. Wong, P. Marshall, G. Luppino, Y. Bai, M. Xu, D. Cooper, E. Holland, T. Sprafke, R. Ricardo, S. Anglin, and J. Beletic, “High performance 4096×4096 pixel imaging sensors for the JMAPS Astrometry Mission,” presented at the Military Science Symposium, Orlando, Florida, USA, 2011.

Rodney, S. A.

S. A. Rodney and J. L. Tonry, “Characterizing charge diffusion in CCDs with X-rays,” Publ. Astron. Soc. Pacific 118, 1100 (2006).

Roe, N. A.

J. A. Fairfield, D. E. Groom, S. J. Bailey, C. J. Bebek, S. E. Holland, A. Karcher, W. F. Koble, W. Lorenzon, and N. A. Roe, “Reduced charge diffusion in thick, fully depleted CCDs, with enhanced red sensitivity,” IEEE Trans. Nucl. Sci. 53, 3877–3881 (2006).

Rollins, C.

B. N. Dorland, G. S. Hennessy, N. Zacharias, D. G. Money, H. Harris, C. Rollins, P. Shu, L. Miko, B. Mott, A. Waczynski, E. Kan, and G. Delo, “Laboratory and sky testing results for the TIS H4RG-10 4k×4k 10-micron visible CMOS-hybrid detector,” Proc. SPIE 66906690D (2007).

B. N. Dorland, D. Veillette, B. Lane, R. P. Dudik, M. Jordan, J. Waterman, A. Waczynski, C. Rollins, and S. Pravdo, US Naval Observatory, 3450 Massachusetts Avenue, Washington, D.C. 20392, USA, are preparing a manuscript to be called “Effects of pixel crosstalk on astronomical measurements using a large format CMOS-hybrid detector.”

Seshadri, S.

S. Seshadri, D. M. Cole, B. R. Hancock, and R. M. Smith, “Mapping electrical crosstalk in pixelated sensor arrays,” Proc. SPIE 7021, 1–10 (2008).

Shu, P.

B. N. Dorland, G. S. Hennessy, N. Zacharias, D. G. Money, H. Harris, C. Rollins, P. Shu, L. Miko, B. Mott, A. Waczynski, E. Kan, and G. Delo, “Laboratory and sky testing results for the TIS H4RG-10 4k×4k 10-micron visible CMOS-hybrid detector,” Proc. SPIE 66906690D (2007).

Simms, L. M.

L. M. Simms, “Hybrid CMOS SiPIN Detectors as Astronomical Imagers” (ProQuest, UMI Dissertation Publishing, 2011).

Smith, R. M.

S. Seshadri, D. M. Cole, B. R. Hancock, and R. M. Smith, “Mapping electrical crosstalk in pixelated sensor arrays,” Proc. SPIE 7021, 1–10 (2008).

Sprafke, T.

J. Hubbs, B. Starr, R. Dudik, M. Farris, A. Wong, P. Marshall, G. Luppino, Y. Bai, M. Xu, D. Cooper, E. Holland, T. Sprafke, R. Ricardo, S. Anglin, and J. Beletic, “High performance 4096×4096 pixel imaging sensors for the JMAPS Astrometry Mission,” presented at the Military Science Symposium, Orlando, Florida, USA, 2011.

Starr, B.

J. Hubbs, B. Starr, R. Dudik, M. Farris, A. Wong, P. Marshall, G. Luppino, Y. Bai, M. Xu, D. Cooper, E. Holland, T. Sprafke, R. Ricardo, S. Anglin, and J. Beletic, “High performance 4096×4096 pixel imaging sensors for the JMAPS Astrometry Mission,” presented at the Military Science Symposium, Orlando, Florida, USA, 2011.

Y. Bai, W. Tennant, S. Angelin, M. Xu, M. Farris, A. Wong, E. Holland, D. Cooper, J. Hosack, B. Starr, R. Blank, and J. W. Beletic, “Large high density hybrid silicon arrays,” presented at the Military Science Symposium (2012).

Stegmeier, J.

G. Finger, R. Dorn, M. Meyer, L. Mehrgan, A. F. M. Moorewood, and J. Stegmeier, “Interpixel capacitance in large format CMOS hybrid arrays,” Proc. SPIE 6276, 62760F (2006).
[CrossRef]

Stover, R. J.

S. E. Holland, G. Goldhaber, D. E. Groom, W. W. Moses, C. R. Pennypacker, S. Perlmutter, N. W. Wang, R. J. Stover, and M. Wei, “Development of back-illuminated, fully-depleted CCD image sensors for use in astronomy and astrophysics,” in Astronomy and Astrophysics, Proceedings of IEEE Workshop on Charge-Coupled Devices and Advanced Image Sensors (IEEE, 1997), pp. R26-1–R26-4.

Swindle, R.

B. N. Dorland, R. P. Dudik, D. Veillette, R. Swindle, A. Waczynski, and E. Kan, “Initial laboratory and sky testing results for the second generation H4RG-10 4k×4k, 10 micron visible CMOS-hybrid detector,” Proc. SPIE 743974390E (2009).

Sze, S. M.

S. M. Sze, Physics of Semiconductor Devices, 2nd ed. (Wiley-Interscience, 1981).

Tennant, W.

Y. Bai, W. Tennant, S. Angelin, M. Xu, M. Farris, A. Wong, E. Holland, D. Cooper, J. Hosack, B. Starr, R. Blank, and J. W. Beletic, “Large high density hybrid silicon arrays,” presented at the Military Science Symposium (2012).

Tonry, J. L.

S. A. Rodney and J. L. Tonry, “Characterizing charge diffusion in CCDs with X-rays,” Publ. Astron. Soc. Pacific 118, 1100 (2006).

Uslenghi, M.

A. Karcher, C. J. Bebek, W. F. Kolbe, D. Maurath, V. Prasad, M. Uslenghi, and M. Wagner, “Measurement of lateral charge diffusion in thick, fully depleted, back-illuminated CCDs,” IEEE Trans. Nucl. Sci. 51, 55685 (2004).

Veillette, D.

B. N. Dorland, R. P. Dudik, D. Veillette, R. Swindle, A. Waczynski, and E. Kan, “Initial laboratory and sky testing results for the second generation H4RG-10 4k×4k, 10 micron visible CMOS-hybrid detector,” Proc. SPIE 743974390E (2009).

B. N. Dorland, D. Veillette, B. Lane, R. P. Dudik, M. Jordan, J. Waterman, A. Waczynski, C. Rollins, and S. Pravdo, US Naval Observatory, 3450 Massachusetts Avenue, Washington, D.C. 20392, USA, are preparing a manuscript to be called “Effects of pixel crosstalk on astronomical measurements using a large format CMOS-hybrid detector.”

Waczynski, A.

B. N. Dorland, R. P. Dudik, D. Veillette, R. Swindle, A. Waczynski, and E. Kan, “Initial laboratory and sky testing results for the second generation H4RG-10 4k×4k, 10 micron visible CMOS-hybrid detector,” Proc. SPIE 743974390E (2009).

B. N. Dorland, G. S. Hennessy, N. Zacharias, D. G. Money, H. Harris, C. Rollins, P. Shu, L. Miko, B. Mott, A. Waczynski, E. Kan, and G. Delo, “Laboratory and sky testing results for the TIS H4RG-10 4k×4k 10-micron visible CMOS-hybrid detector,” Proc. SPIE 66906690D (2007).

B. N. Dorland, D. Veillette, B. Lane, R. P. Dudik, M. Jordan, J. Waterman, A. Waczynski, C. Rollins, and S. Pravdo, US Naval Observatory, 3450 Massachusetts Avenue, Washington, D.C. 20392, USA, are preparing a manuscript to be called “Effects of pixel crosstalk on astronomical measurements using a large format CMOS-hybrid detector.”

Wagner, M.

A. Karcher, C. J. Bebek, W. F. Kolbe, D. Maurath, V. Prasad, M. Uslenghi, and M. Wagner, “Measurement of lateral charge diffusion in thick, fully depleted, back-illuminated CCDs,” IEEE Trans. Nucl. Sci. 51, 55685 (2004).

Wang, N. W.

S. E. Holland, G. Goldhaber, D. E. Groom, W. W. Moses, C. R. Pennypacker, S. Perlmutter, N. W. Wang, R. J. Stover, and M. Wei, “Development of back-illuminated, fully-depleted CCD image sensors for use in astronomy and astrophysics,” in Astronomy and Astrophysics, Proceedings of IEEE Workshop on Charge-Coupled Devices and Advanced Image Sensors (IEEE, 1997), pp. R26-1–R26-4.

Waterman, J.

B. N. Dorland, D. Veillette, B. Lane, R. P. Dudik, M. Jordan, J. Waterman, A. Waczynski, C. Rollins, and S. Pravdo, US Naval Observatory, 3450 Massachusetts Avenue, Washington, D.C. 20392, USA, are preparing a manuscript to be called “Effects of pixel crosstalk on astronomical measurements using a large format CMOS-hybrid detector.”

Wei, M.

S. E. Holland, G. Goldhaber, D. E. Groom, W. W. Moses, C. R. Pennypacker, S. Perlmutter, N. W. Wang, R. J. Stover, and M. Wei, “Development of back-illuminated, fully-depleted CCD image sensors for use in astronomy and astrophysics,” in Astronomy and Astrophysics, Proceedings of IEEE Workshop on Charge-Coupled Devices and Advanced Image Sensors (IEEE, 1997), pp. R26-1–R26-4.

Wong, A.

J. Hubbs, B. Starr, R. Dudik, M. Farris, A. Wong, P. Marshall, G. Luppino, Y. Bai, M. Xu, D. Cooper, E. Holland, T. Sprafke, R. Ricardo, S. Anglin, and J. Beletic, “High performance 4096×4096 pixel imaging sensors for the JMAPS Astrometry Mission,” presented at the Military Science Symposium, Orlando, Florida, USA, 2011.

Y. Bai, W. Tennant, S. Angelin, M. Xu, M. Farris, A. Wong, E. Holland, D. Cooper, J. Hosack, B. Starr, R. Blank, and J. W. Beletic, “Large high density hybrid silicon arrays,” presented at the Military Science Symposium (2012).

Xu, M.

Y. Bai, W. Tennant, S. Angelin, M. Xu, M. Farris, A. Wong, E. Holland, D. Cooper, J. Hosack, B. Starr, R. Blank, and J. W. Beletic, “Large high density hybrid silicon arrays,” presented at the Military Science Symposium (2012).

J. Hubbs, B. Starr, R. Dudik, M. Farris, A. Wong, P. Marshall, G. Luppino, Y. Bai, M. Xu, D. Cooper, E. Holland, T. Sprafke, R. Ricardo, S. Anglin, and J. Beletic, “High performance 4096×4096 pixel imaging sensors for the JMAPS Astrometry Mission,” presented at the Military Science Symposium, Orlando, Florida, USA, 2011.

Zacharias, N.

B. N. Dorland, G. S. Hennessy, N. Zacharias, D. G. Money, H. Harris, C. Rollins, P. Shu, L. Miko, B. Mott, A. Waczynski, E. Kan, and G. Delo, “Laboratory and sky testing results for the TIS H4RG-10 4k×4k 10-micron visible CMOS-hybrid detector,” Proc. SPIE 66906690D (2007).

IEEE Trans. Nucl. Sci.

J. A. Fairfield, D. E. Groom, S. J. Bailey, C. J. Bebek, S. E. Holland, A. Karcher, W. F. Koble, W. Lorenzon, and N. A. Roe, “Reduced charge diffusion in thick, fully depleted CCDs, with enhanced red sensitivity,” IEEE Trans. Nucl. Sci. 53, 3877–3881 (2006).

A. Karcher, C. J. Bebek, W. F. Kolbe, D. Maurath, V. Prasad, M. Uslenghi, and M. Wagner, “Measurement of lateral charge diffusion in thick, fully depleted, back-illuminated CCDs,” IEEE Trans. Nucl. Sci. 51, 55685 (2004).

Proc. SPIE

A. C. Moore, Z. Ninkov, and W. J. Forrest, “Interpixel capacitance in non-destructive focal plane arrays,” Proc. SPIE 5167, 204–215 (2004).
[CrossRef]

J. Janesick, J. T. Andrews, and T. Elliot, “Fundamental performance differences between CMOS and CCD imagers: Part I,” Proc. SPIE 6267, 62760M (2006).
[CrossRef]

B. N. Dorland, G. S. Hennessy, N. Zacharias, D. G. Money, H. Harris, C. Rollins, P. Shu, L. Miko, B. Mott, A. Waczynski, E. Kan, and G. Delo, “Laboratory and sky testing results for the TIS H4RG-10 4k×4k 10-micron visible CMOS-hybrid detector,” Proc. SPIE 66906690D (2007).

B. N. Dorland, R. P. Dudik, D. Veillette, R. Swindle, A. Waczynski, and E. Kan, “Initial laboratory and sky testing results for the second generation H4RG-10 4k×4k, 10 micron visible CMOS-hybrid detector,” Proc. SPIE 743974390E (2009).

S. Seshadri, D. M. Cole, B. R. Hancock, and R. M. Smith, “Mapping electrical crosstalk in pixelated sensor arrays,” Proc. SPIE 7021, 1–10 (2008).

G. Finger, R. Dorn, M. Meyer, L. Mehrgan, A. F. M. Moorewood, and J. Stegmeier, “Interpixel capacitance in large format CMOS hybrid arrays,” Proc. SPIE 6276, 62760F (2006).
[CrossRef]

Publ. Astron. Soc. Pacific

S. A. Rodney and J. L. Tonry, “Characterizing charge diffusion in CCDs with X-rays,” Publ. Astron. Soc. Pacific 118, 1100 (2006).

Other

J. R. Janesick, Scientific Charge-Coupled Devices (SPIE, 2001).

http://henkle.lbl.gov/optical_constants/getdb2.html .

S. M. Sze, Physics of Semiconductor Devices, 2nd ed. (Wiley-Interscience, 1981).

S. E. Holland, G. Goldhaber, D. E. Groom, W. W. Moses, C. R. Pennypacker, S. Perlmutter, N. W. Wang, R. J. Stover, and M. Wei, “Development of back-illuminated, fully-depleted CCD image sensors for use in astronomy and astrophysics,” in Astronomy and Astrophysics, Proceedings of IEEE Workshop on Charge-Coupled Devices and Advanced Image Sensors (IEEE, 1997), pp. R26-1–R26-4.

J. Hubbs, B. Starr, R. Dudik, M. Farris, A. Wong, P. Marshall, G. Luppino, Y. Bai, M. Xu, D. Cooper, E. Holland, T. Sprafke, R. Ricardo, S. Anglin, and J. Beletic, “High performance 4096×4096 pixel imaging sensors for the JMAPS Astrometry Mission,” presented at the Military Science Symposium, Orlando, Florida, USA, 2011.

Y. Bai, W. Tennant, S. Angelin, M. Xu, M. Farris, A. Wong, E. Holland, D. Cooper, J. Hosack, B. Starr, R. Blank, and J. W. Beletic, “Large high density hybrid silicon arrays,” presented at the Military Science Symposium (2012).

B. N. Dorland, D. Veillette, B. Lane, R. P. Dudik, M. Jordan, J. Waterman, A. Waczynski, C. Rollins, and S. Pravdo, US Naval Observatory, 3450 Massachusetts Avenue, Washington, D.C. 20392, USA, are preparing a manuscript to be called “Effects of pixel crosstalk on astronomical measurements using a large format CMOS-hybrid detector.”

L. M. Simms, “Hybrid CMOS SiPIN Detectors as Astronomical Imagers” (ProQuest, UMI Dissertation Publishing, 2011).

L. Cheng, “Interpixel Capacitive Coupling,” thesis, RIT Digital Media Library Repository, https://ritdml.rit.edu/handle/1850/8414 .

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Figures (16)

Fig. 1.
Fig. 1.

Interpixel capacitance ( C i p ) .

Fig. 2.
Fig. 2.

IPC model for 3 × 3 pixel array.

Fig. 3.
Fig. 3.

Charge diffusion decreases with increasing absorption depth along z .

Fig. 4.
Fig. 4.

Charge diffusion example images, with Q pixel / Q total for each pixel.

Fig. 5.
Fig. 5.

JMAPS camera and H4RH-10 B0 in the dewar.

Fig. 6.
Fig. 6.

Image of pixels that have been reset using the SPR method for estimating IPC.

Fig. 7.
Fig. 7.

Illustration of background area used for correction. The shaded region of 2-pixel width is the annulus used for correction.

Fig. 8.
Fig. 8.

Fractional voltage in the central pixel as a function of the reset voltage level for SPR data.

Fig. 9.
Fig. 9.

IPC values for H4RG-10 B0 based on SPR method.

Fig. 10.
Fig. 10.

IPC model based on SPR data.

Fig. 11.
Fig. 11.

Readout “columns” determined by alternating readout direction.

Fig. 12.
Fig. 12.

SPR-generated IPC kernels from even (left) and odd (right) columns.

Fig. 13.
Fig. 13.

Double hits are removed by fitting a Gaussian to stacked pixels. Pixels with crosses were excluded from iteration.

Fig. 14.
Fig. 14.

Kernel and errors, with pixel values resulting from Fe 55 tests of H4RG-10 B0.

Fig. 15.
Fig. 15.

Predicted kernel, with pixel values resulting from the Fe 55 model.

Fig. 16.
Fig. 16.

Comparison of central and nearest neighbor (right and left) pixel values: predicted by the model, and taken from the final Fe 55 kernel.

Tables (3)

Tables Icon

Table 1. JMAPS Camera Voltage Parameters

Tables Icon

Table 2. Results of the Odd/Even Column Systematic Offset Test 13 cm

Tables Icon

Table 3. Fe 55 Model and Data Results for Substrate Voltages 10–40 V

Equations (16)

Equations on this page are rendered with MathJax. Learn more.

n V n = Q total C node .
h ( n ) = Q n Q total .
l a = λ 4 π Im ( n ) ,
n = 1 δ i β ,
P Δ z = 1 l a ( e d 1 l a e d 2 l a ) ,
f C D = P Δ z 2 π σ ( z ) e x 2 y 2 2 σ ( z ) 2
σ ( z ) = 2 D p t tr .
v drift = d z d t = μ E ( z ) = μ ( E max + q N d ϵ Si z ) ,
t tr = ϵ Si q N d ln ( E max E ( z ) ) ,
V D = q N d 2 ϵ Si z D 2 ,
E max = ( V z D + q N d 2 ϵ Si z D ) .
σ ( z ) 2 z D 2 k B T q V ,
σ ( z ) = [ 2 k B T ϵ S i q 2 N d ln ( E max V q N d z D 2 ϵ Si ( 2 z z D ) ) ] 1 / 2 .
C new = σ cp [ 2 ln ( 1 r n 1 ) ] 1 / 2 cos ( 2 π r n 2 ) + C ave ,
α new = ( 1 C new ) i j f IPC , i j ,
σ noise = ϵ q 1620 G ,

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