Interactions and coherences in electron transport through serially coupled quantum dots

Bahareh Goldozian

Interactions and coherences in electron transport through serially coupled quantum dots

Bahareh Goldozian

Research output: Thesis › Doctoral Thesis (compilation)

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Abstract

This thesis is considering various aspects of electronic transport through quantum dots, with the focus on two or three dots coupled in series.

In paper I, we study the impact of electron-electron interactions on transport in a system of triple quantum dots with spin. We show that due to electron-electron scattering processes, transport is possible beyond the common single-particle transmission channels. We also check the validity of the Pauli master equation by comparing it with the first-order von Neumann approach.

In paper II, we report the addition of phonon scattering to the recently established numerical package QmeQ for transport in quantum dot systems. Also, we analyze phonon-assisted transport in the absence of applied source-drain voltage.

In paper III, we present a combined experimental and theoretical study of a nanowire double quantum dot system. We investigate the origin and properties of the bias triangle features and predict and observe features directly related to the inter-dot exchange energy.

In paper IV, based on what was presented in paper II, it is shown that by coupling a hot phonon bath to a double quantum dot, phonon assisted transport can be used to drive currents through the double dot and effectively harvest energy from the phonon bath.

Original language	English
Qualification	Doctor
Awarding Institution	Mathematical Physics
Supervisors/Advisors	Samuelsson, Peter, Supervisor Burke, Adam, Assistant supervisor
Award date	2020 Jan 24
Place of Publication	Lund
Publisher	Lund University , Department of physics
ISBN (Print)	978-91-7895-392-9
ISBN (electronic)	978-91-7895-393-6
Publication status	Published - 2019

Bibliographical note

Defence details
Date: 2020-01-24
Time: 09:00
Place: Lecture Hall Rydberg, Fysicum, Professorsgatan 1, Lund
External reviewer(s)
Name: Fransson, Jonas
Title: Professor
Affiliation: Uppsala University, Uppsala
---

Subject classification (UKÄ)

Physical Sciences

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Bahareh Goldozian webFinal published version, 11 MB

3 Article

Heat Driven Transport in Serial Double Quantum Dot Devices
Dorsch, S., Svilans, A., Josefsson, M., Goldozian, B., Kumar, M., Thelander, C., Wacker, A. & Burke, A., 2021, In: Nano Letters. 21, 2, p. 988–994
Research output: Contribution to journal › Article › peer-review

Open Access
Quantifying the impact of phonon scattering on electrical and thermal transport in quantum dots
Goldozian, B., Kiršanskas, G., Damtie, F. A. & Wacker, A., 2019 Mar, In: European Physical Journal: Special Topics. 227, 15-16, p. 1959-1967 8 p.
Research output: Contribution to journal › Article › peer-review

Open Access
Transport in serial spinful multiple-dot systems: The role of electron-electron interactions and coherences.
Goldozian, B., Damtie, F., Kirsanskas, G. & Wacker, A., 2016, In: Scientific Reports. 6, 22761.
Research output: Contribution to journal › Article › peer-review

Open Access

Cite this

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title = "Interactions and coherences in electron transport through serially coupled quantum dots",

abstract = "This thesis is considering various aspects of electronic transport through quantum dots, with the focus on two or three dots coupled in series.In paper I, we study the impact of electron-electron interactions on transport in a system of triple quantum dots with spin. We show that due to electron-electron scattering processes, transport is possible beyond the common single-particle transmission channels. We also check the validity of the Pauli master equation by comparing it with the first-order von Neumann approach.In paper II, we report the addition of phonon scattering to the recently established numerical package QmeQ for transport in quantum dot systems. Also, we analyze phonon-assisted transport in the absence of applied source-drain voltage. In paper III, we present a combined experimental and theoretical study of a nanowire double quantum dot system. We investigate the origin and properties of the bias triangle features and predict and observe features directly related to the inter-dot exchange energy.In paper IV, based on what was presented in paper II, it is shown that by coupling a hot phonon bath to a double quantum dot, phonon assisted transport can be used to drive currents through the double dot and effectively harvest energy from the phonon bath.",

author = "Bahareh Goldozian",

note = "Defence details Date: 2020-01-24 Time: 09:00 Place: Lecture Hall Rydberg, Fysicum, Professorsgatan 1, Lund External reviewer(s) Name: Fransson, Jonas Title: Professor Affiliation: Uppsala University, Uppsala --- ",

year = "2019",

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publisher = "Lund University , Department of physics",

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AU - Goldozian, Bahareh

N1 - Defence details Date: 2020-01-24 Time: 09:00 Place: Lecture Hall Rydberg, Fysicum, Professorsgatan 1, Lund External reviewer(s) Name: Fransson, Jonas Title: Professor Affiliation: Uppsala University, Uppsala ---

PY - 2019

Y1 - 2019

N2 - This thesis is considering various aspects of electronic transport through quantum dots, with the focus on two or three dots coupled in series.In paper I, we study the impact of electron-electron interactions on transport in a system of triple quantum dots with spin. We show that due to electron-electron scattering processes, transport is possible beyond the common single-particle transmission channels. We also check the validity of the Pauli master equation by comparing it with the first-order von Neumann approach.In paper II, we report the addition of phonon scattering to the recently established numerical package QmeQ for transport in quantum dot systems. Also, we analyze phonon-assisted transport in the absence of applied source-drain voltage. In paper III, we present a combined experimental and theoretical study of a nanowire double quantum dot system. We investigate the origin and properties of the bias triangle features and predict and observe features directly related to the inter-dot exchange energy.In paper IV, based on what was presented in paper II, it is shown that by coupling a hot phonon bath to a double quantum dot, phonon assisted transport can be used to drive currents through the double dot and effectively harvest energy from the phonon bath.

AB - This thesis is considering various aspects of electronic transport through quantum dots, with the focus on two or three dots coupled in series.In paper I, we study the impact of electron-electron interactions on transport in a system of triple quantum dots with spin. We show that due to electron-electron scattering processes, transport is possible beyond the common single-particle transmission channels. We also check the validity of the Pauli master equation by comparing it with the first-order von Neumann approach.In paper II, we report the addition of phonon scattering to the recently established numerical package QmeQ for transport in quantum dot systems. Also, we analyze phonon-assisted transport in the absence of applied source-drain voltage. In paper III, we present a combined experimental and theoretical study of a nanowire double quantum dot system. We investigate the origin and properties of the bias triangle features and predict and observe features directly related to the inter-dot exchange energy.In paper IV, based on what was presented in paper II, it is shown that by coupling a hot phonon bath to a double quantum dot, phonon assisted transport can be used to drive currents through the double dot and effectively harvest energy from the phonon bath.

M3 - Doctoral Thesis (compilation)

SN - 978-91-7895-392-9

PB - Lund University , Department of physics

CY - Lund

ER -

Interactions and coherences in electron transport through serially coupled quantum dots

Abstract

Bibliographical note

Subject classification (UKÄ)

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Research output

Heat Driven Transport in Serial Double Quantum Dot Devices

Quantifying the impact of phonon scattering on electrical and thermal transport in quantum dots

Transport in serial spinful multiple-dot systems: The role of electron-electron interactions and coherences.

Cite this