Measurement of the quantum-confined Stark effect in $InAs/In(Ga)As$ quantum dots with p-doped quantum dot barriers
Joe Mahoney, Mingchu Tang, Huiyun Liu, and Nicol\'as Abad\'ia, "Measurement of the quantum-confined Stark effect in InAs/In(Ga)As quantum dots with p-doped quantum dot barriers," Opt. Express 30, 17730-17738 (2022) The quantum-confined Stark effect in InAs/In(Ga)As quantum dots (...
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| Main Authors: | , , , |
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| Format: | Journal Article |
| Language: | English |
| Published: |
19-05-2022
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| Subjects: | |
| Online Access: | Get full text |
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| Summary: | Joe Mahoney, Mingchu Tang, Huiyun Liu, and Nicol\'as Abad\'ia,
"Measurement of the quantum-confined Stark effect in InAs/In(Ga)As quantum
dots with p-doped quantum dot barriers," Opt. Express 30, 17730-17738 (2022) The quantum-confined Stark effect in InAs/In(Ga)As quantum dots (QDs) using
non-intentionally doped and p-doped QD barriers was investigated to compare
their performance for use in optical modulators. The measurements indicate that
the doped QD barriers lead to a better figure of merit $(FoM)$, defined as the
ratio of the change in absorption $\Delta\alpha$ for a reverse bias voltage
swing to the loss at $1 V$ $\alpha(1 V)$, $FoM=\Delta\alpha/\alpha (1 V)$. The
improved performance is due to the absence of the ground-state absorption peak
and an additional component to the Stark shift. Measurements indicate that
p-doping the QD barriers can lead to more than a 3$\times$ increase in FoM
modulator performance between temperatures of -73 $\deg$C to 100 $\deg$C when
compared with the stack with NID QD barriers. |
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| DOI: | 10.48550/arxiv.2205.09427 |