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32 results on '"Ronningen, Theodore J."'

1. Low Excess Noise, High Quantum Efficiency Avalanche Photodiodes for Beyond 2 {\mu}m Wavelength Detection

Author

Jung, Hyemin, Lee, Seunghyun, Jin, Xiao, Liu, Yifan, Ronningen, Theodore J., Grein, Christoph H., David, John P. R., and Krishna, Sanjay

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

The increasing concentration of greenhouse gases, notably CH4 and CO2, has fueled global temperature increases, intensifying concerns regarding the prevailing climate crisis. Effectively monitoring these gases demands a detector spanning the extended short-wavelength infrared (~2.4 {\mu}m) range, covering wavelengths of CH4 (1.65 {\mu}m) and CO2 (2.05 {\mu}m). The state-of-the-art HgCdTe avalanche photodetectors (APDs) offer exceptional performance metrics, including high gain (M) and low excess noise (F). However, their widespread adoption is hindered by inherent challenges such as manufacturability, reproducibility, and cost factors. Moreover, their reliance on cryogenic cooling adds to the cost, size, weight, and power of the system. We have demonstrated a linear mode APD combining an InGaAs/GaAsSb type-II superlattice absorber and an AlGaAsSb multiplier lattice matched to InP substrates. This APD has demonstrated a room temperature M of 178, a maximum measurable external quantum efficiency of 3560 % at 2 {\mu}m, an extremely low excess noise (F < 2 at M < 20), and a small temperature coefficient of breakdown (7.58 mV/K {\mu}m). Such a high performance APD with manufacturable semiconductor materials could lead to a rapid transition to a commercial III-V foundry, holding the promise of revolutionizing high-sensitivity receivers for greenhouse gas monitoring.

Published
2024

3. Low-Noise InGaAs/AlInAsSb Avalanche Photodiodes on InP Substrates

Author

Guo, Bingtian, primary, Schwartz, Mariah, additional, Kodati, Sri H., additional, McNicholas, Kyle M., additional, Jung, Hyemin, additional, Lee, Seunghyun, additional, Konowitch, Jason, additional, Chen, Dekang, additional, Bai, Junwu, additional, Guo, Xiangwen, additional, Ronningen, Theodore J., additional, Grein, Christoph H., additional, Campbell, Joe C., additional, and Krishna, Sanjay, additional

Published
2023
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4. InGaAs/AlInAsSb avalanche photodiodes with low noise and strong temperature stability

Author

Guo, Bingtian, primary, Schwartz, Mariah, additional, Kodati, Sri H., additional, McNicholas, Kyle M., additional, Jung, Hyemin, additional, Lee, Seunghyun, additional, Konowitch, Jason, additional, Chen, Dekang, additional, Bai, Junwu, additional, Guo, Xiangwen, additional, Ronningen, Theodore J., additional, Grein, Christoph H., additional, Campbell, Joe C., additional, and Krishna, Sanjay, additional

Published
2023
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6. Temperature Dependence of Avalanche Breakdown of AlGaAsSb and AlInAsSb Avalanche Photodiodes

Author

Guo, Bingtian, primary, Ahmed, Sheikh Z., additional, Xue, Xingjun, additional, Rockwell, Ann-Kathryn, additional, Ha, Jaedu, additional, Lee, Seunghyun, additional, Liang, Baolai, additional, Jones, Andrew H., additional, McArthur, J. Andrew, additional, Kodati, Sri H., additional, Ronningen, Theodore J., additional, Krishna, Sanjay, additional, Kim, Jong Su, additional, Bank, Seth R., additional, Ghosh, Avik W., additional, and Campbell, Joe C., additional

Published
2022
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8. Impact Ionization Coefficients of Digital Alloy and Random Alloy Al0.85Ga0.15As0.56Sb0.44 in a Wide Electric Field Range

Author

Guo, Bingtian, primary, Jin, Xiao, additional, Lee, Seunghyun, additional, Ahmed, Sheikh Z., additional, Jones, Andrew H., additional, Xue, Xingjun, additional, Liang, Baolai, additional, Lewis, Harry I. J., additional, Kodati, Sri H., additional, Chen, Dekang, additional, Ronningen, Theodore J., additional, Grein, Christoph H., additional, Ghosh, Avik W., additional, Krishna, Sanjay, additional, David, John P. R., additional, and Campbell, Joe C., additional

Published
2022
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9. Signal and Noise Analysis of an Open-Circuit Voltage Pixel for Uncooled Infrared Image Sensors

Author

Fragasse, Roman, primary, Tantawy, Ramy, additional, Smith, Dale, additional, Specht, Teressa, additional, Taghipour, Zahra, additional, Hooser, Phillip V., additional, Taylor, Chris, additional, Ronningen, Theodore J., additional, Fuller, Earl, additional, Reyner, Charles, additional, Duran, Josh, additional, Ariyawansa, Gamini, additional, Krishna, Sanjay, additional, and Khalil, Waleed, additional

Published
2021
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10. NSF NeXUS: A New Model for Accessing the Frontiers of Ultrafast Science

Author

Baker, L. Robert, DiMauro, Louis F., Turro, Claudia, Gupta, Jay A., Kawakami, Roland K., Allison, Thomas K., Ronningen, Theodore J., Scarborough, Timothy D., Leshchenko, Vyacheslav, Shields, Seth S., and Beetar, John E.

Abstract

The NSF NeXUS user facility is designed to enable direct observation of electron motion with attosecond to femtosecond time resolution, angstrom spatial resolution, and element-specific spectral resolution. NeXUS will level the scientific playing field by providing researchers across disciplines access to the most advanced characterization tools available worldwide for studying ultrafast dynamics in molecules and materials.

Published
2025
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12. Thick Al0.85Ga0.15As0.56Sb0.44 avalanche photodiodes on InP substrate

Author

Lee, Seunghyun, primary, Kodati, Sri Harsha, additional, Guo, Bingtian, additional, Jones, Andrew H., additional, Schwartz, Mariah, additional, Jung, Hyemin, additional, Pfiester, Nicole, additional, Winslow, Martin, additional, Grein, Christopher H., additional, Ronningen, Theodore J., additional, Campbell, Joe C., additional, and Krishna, Sanjay, additional

Published
2021
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13. Impact Ionization Coefficients of Digital Alloy and Random Alloy Al 0.85 Ga 0.15 As 0.56 Sb 0.44 in a Wide Electric Field Range.

Author

Guo, Bingtian, Jin, Xiao, Lee, Seunghyun, Ahmed, Sheikh Z., Jones, Andrew H., Xue, Xingjun, Liang, Baolai, Lewis, Harry I. J., Kodati, Sri H., Chen, Dekang, Ronningen, Theodore J., Grein, Christoph H., Ghosh, Avik W., Krishna, Sanjay, David, John P. R., and Campbell, Joe C.

Abstract

Digital alloy and random alloy Al0.85Ga0.15As0.56 Sb0.44 avalanche photodiodes (APDs) exhibit low excess noise, comparable to Si APDs. Consequently, this material is a promising multiplication layer candidate for separate absorption, charge, and multiplication structure APDs with high gain-bandwidth product. Characterization of the impact ionization coefficients of electrons (α) and holes (β) plays an important role in the simulation of avalanche photodiodes. The multiplication gain curves of eight p+-i-n+ and n+-i-p+ APDs covering a wide range of avalanche widths have been used to determine the electric field dependence of the impact ionization coefficients of Al0.85Ga0.15As0.56Sb0.44. A large impact ionization coefficient ratio between that of electrons to holes was seen across a wide electric field range. Simulations of the avalanche multiplication in these structures using a random path length (RPL) model gave good agreement with experimental results over almost three orders of magnitude, and a mixed injection method was employed to verify the extracted impact ionization coefficients. Interestingly, no difference in the impact ionization coefficients was seen between digital alloy and random alloy Al0.85Ga0.15As0.56Sb0.44. This knowledge of impact ionization coefficients is beneficial for the future utilization of the AlxGa1-xAsySb1-y material system. [ABSTRACT FROM AUTHOR]

Published
2022
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14. Determination of background doping type in type-II superlattice using capacitance-voltage measurements with double mesa structure

Author

Fink, Douglas R., primary, Lee, Seunghyun, additional, Kodati, Sri Harsha, additional, Dahiya, Vinita, additional, Ronningen, Theodore J., additional, Winslow, Martin, additional, Grein, Christoph H., additional, Jones, Andrew H., additional, Campbell, Joe C., additional, Klem, John F., additional, and Krishna, Sanjay, additional

Published
2020
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15. Advancing Uncooled Infrared Imagers Using An Open-Circuit Voltage Pixel

Author

Fragasse, Roman, primary, Tantawy, Ramy, additional, Smith, Shane, additional, Specht, Teressa, additional, Taghipour, Zahra, additional, Van Hooser, Phillip, additional, Taylor, Christopher, additional, Ronningen, Theodore J., additional, Fuller, Earl, additional, Fink, Rudy, additional, Krishna, Sanjay, additional, and Khalil, Waleed, additional

Published
2020
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18. Subwavelength antimonide infrared detector coupled with dielectric resonator antenna

Author

Kazemi, Alireza, primary, Shu, Qingyuan, additional, Dahiya, Vinita, additional, Taghipour, Zahra, additional, Paradis, Pablo, additional, Ball, Christopher, additional, Ronningen, Theodore J., additional, Zollner, Stefan, additional, Young, Steve M., additional, Budhu, Jordan, additional, Grossklaus, Kevin, additional, Vandervelde, Thomas, additional, Grbic, Anthony, additional, and Krishna, Sanjay, additional

Published
2019
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21. InAs/AlSb type II superlattice avalanche photodiodes (Erratum)

Author

Lee, Seunghyun, primary, Kazemi, Alireza, additional, Kodati, Sri Harsha, additional, Mathews, Sen, additional, Ronningen, Theodore J., additional, Winslow, Martin, additional, Grein, Christoph H., additional, Ye, Nan, additional, Jones, Andrew H., additional, Campbell, Joe C., additional, and Krishna, Sanjay, additional

Published
2018
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25. Helium induced pressure broadening and shifting of HCN hyperfine transitions between 1.3 and 20 K.

Author

Ronningen, Theodore J. and de Lucia, Frank C.

Subjects
*NOBLE gases, *MOLECULES, *TEMPERATURE, *POTENTIAL energy surfaces, *QUANTUM chemistry, *COOLING
Abstract

We have measured the helium induced pressure broadening and shifting of the distinct hyperfine components of the j=1←0 and j=2←1 transitions of HC14N at temperatures between 1.3 and 20 K. The HCN molecules were cooled to these temperatures using the collisional cooling technique. As a test of this cooling technique we measured the Doppler contribution to the spectral lines, and these measurements confirm that the molecules are at the same temperature as the walls of the spectroscopic cell. We observed that the hyperfine components of the 2←1 transition have distinct broadening coefficients that differ from one another by as much as 5%. The measured differences are in reasonable agreement with theoretical predictions. We have also performed molecular scattering calculations on three He–HCN potential energy surfaces in order to compare our results with theoretical expectations. At the lowest temperatures these calculations predict broadening coefficients that are considerably larger than the measured coefficients. We have previously found a similar discrepancy for two other molecules at these low temperatures, and we discuss possible experimental and theoretical origins for this persistent discrepancy. [ABSTRACT FROM AUTHOR]

Published
2005
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26. Thick Al0.85Ga0.15As0.56Sb0.44avalanche photodiodes on InP substrate

Author

Andresen, Bjørn F., Fulop, Gabor F., Zheng, Lucy, Kimata, Masafumi, Miller, John Lester, Lee, Seunghyun, Kodati, Sri Harsha, Guo, Bingtian, Jones, Andrew H., Schwartz, Mariah, Jung, Hyemin, Pfiester, Nicole, Winslow, Martin, Grein, Christopher H., Ronningen, Theodore J., Campbell, Joe C., and Krishna, Sanjay

Published
2021
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27. First spectroscopic investigation of the 4d transition metal monocarbide MoC.

Author

Brugh, Dale J. and Ronningen, Theodore J.

Subjects
*TRANSITION metal carbides, *SPECTRUM analysis
Abstract

Presents the first optical spectroscopic investigation of the 4d transition metal monocarbide MoC. Consideration of spin-uncoupling effects in the ground state; Extraction of spectroscopic constants for other major isotopic MoC modifications; Estimation for the true Mo-C bond length.

Published
1998
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29. Thick Al0.85Ga0.15As0.56Sb0.44 avalanche photodiodes on InP substrate.

Author

Andresen, Bjørn F., Fulop, Gabor F., Zheng, Lucy, Kimata, Masafumi, Miller, John Lester, Lee, Seunghyun, Kodati, Sri Harsha, Guo, Bingtian, Jones, Andrew H., Schwartz, Mariah, Jung, Hyemin, Pfiester, Nicole, Winslow, Martin, Grein, Christopher H., Ronningen, Theodore J., Campbell, Joe C., and Krishna, Sanjay

Published
2021
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32. Low temperature helium pressure broadening of HCN

Author

Ronningen, Theodore J.

Subjects
pressure broadening, molecular spectroscopy, millimeter-wave spectroscopy, spectroscopic line shapes
Abstract

We measured the helium induced pressure broadening and shifting of the distinct hyperfine components of the j = 1 ← 0 and j = 2 ← 1 transitions of HC14N at temperatures between 1.3 and 18 K. The HCN molecules were cooled to these temperatures using the collisional cooling technique. As a test that this cooling technique was generating the cold samples expected, we measured the Doppler contribution to the spectral lines, and these measurements confirmed that the molecules were at the same temperature as the walls of the spectroscopic cell. We observed that the hyperfine components of the 2 ← 1 transition have distinct broadening coefficients that differ from one another by as much as 5%. The measured differences are in reasonable agreement with theoretical predictions. We also performed molecular scattering calculations, using three proposed He-HCN potential energy surfaces, in order to compare our pressure broadening and shifting results with theoretical predictions. The predictions were within a few standard deviations near 18 K, but at the lowest experimental temperatures the predictions were many standard deviations larger than the measured values. This discrepancy is similar to a discrepancy found in two previous low temperature pressure broadening studies, and this dissertation discusses possible experimental and theoretical origins for this persistent discrepancy.

Published
2005

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