Signatures of long-range spin-spin interactions in an (In,Ga)As quantum dot ensemble
We present an investigation of the electron spin dynamics in an ensemble of singly-charged quantum dots subject to an external magnetic field and laser pumping with circularly polarized light. The spectral laser width is tailored such that different groups of quantum dots are coherently pumped. Surp...
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| creator | Fischer, Andreas Evers, Eiko Varwig, Steffen Greilich, Alex Bayer, Manfred Anders, Frithjof B |
| description | We present an investigation of the electron spin dynamics in an ensemble of singly-charged quantum dots subject to an external magnetic field and laser pumping with circularly polarized light. The spectral laser width is tailored such that different groups of quantum dots are coherently pumped. Surprisingly, the dephasing time \(T^*\) of the electron spin polarization depends only weakly on the laser spectral width. These findings can be consistently explained by a cluster theory of coupled quantum dots with a long range electronic spin-spin interaction. We present a numerical simulation of the spin dynamics based on the central spin model that includes a quantum mechanical description of the laser pulses as well as a time-independent Heisenberg interaction between each pair of electron spins. We discuss the individual dephasing contributions stemming from the Overhauser field, the distribution of the electron \(g\)-factors and the electronic spin-spin interaction as well as the spectral width of the laser pulse. This analysis reveals the counterbalancing effect of the total dephasing time when increasing the spectral laser width. On one hand, the deviations of the electron \(g\)-factors increase. On the other hand, an increasing number of coherently pumped electron spins synchronize due to the spin-spin interaction. We find an excellent agreement between the experimental data and the dephasing time in the simulation using an exponential distribution of Heisenberg couplings with a mean value \(\overline{J}\approx 0.26\,\mathrm{\mu eV}\). |
| doi_str_mv | 10.48550/arxiv.1806.11025 |
| format | Article |
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The spectral laser width is tailored such that different groups of quantum dots are coherently pumped. Surprisingly, the dephasing time \(T^*\) of the electron spin polarization depends only weakly on the laser spectral width. These findings can be consistently explained by a cluster theory of coupled quantum dots with a long range electronic spin-spin interaction. We present a numerical simulation of the spin dynamics based on the central spin model that includes a quantum mechanical description of the laser pulses as well as a time-independent Heisenberg interaction between each pair of electron spins. We discuss the individual dephasing contributions stemming from the Overhauser field, the distribution of the electron \(g\)-factors and the electronic spin-spin interaction as well as the spectral width of the laser pulse. This analysis reveals the counterbalancing effect of the total dephasing time when increasing the spectral laser width. On one hand, the deviations of the electron \(g\)-factors increase. On the other hand, an increasing number of coherently pumped electron spins synchronize due to the spin-spin interaction. We find an excellent agreement between the experimental data and the dephasing time in the simulation using an exponential distribution of Heisenberg couplings with a mean value \(\overline{J}\approx 0.26\,\mathrm{\mu eV}\).</description><identifier>EISSN: 2331-8422</identifier><identifier>DOI: 10.48550/arxiv.1806.11025</identifier><language>eng</language><publisher>Ithaca: Cornell University Library, arXiv.org</publisher><subject>Circular polarization ; Computer simulation ; Couplings ; Electron spin ; Electrons ; Laser pumping ; Lasers ; Mathematical models ; Physics - Mesoscale and Nanoscale Physics ; Polarization (spin alignment) ; Polarized light ; Probability distribution functions ; Quantum dots ; Quantum mechanics ; Spin dynamics</subject><ispartof>arXiv.org, 2018-06</ispartof><rights>2018. 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The spectral laser width is tailored such that different groups of quantum dots are coherently pumped. Surprisingly, the dephasing time \(T^*\) of the electron spin polarization depends only weakly on the laser spectral width. These findings can be consistently explained by a cluster theory of coupled quantum dots with a long range electronic spin-spin interaction. We present a numerical simulation of the spin dynamics based on the central spin model that includes a quantum mechanical description of the laser pulses as well as a time-independent Heisenberg interaction between each pair of electron spins. We discuss the individual dephasing contributions stemming from the Overhauser field, the distribution of the electron \(g\)-factors and the electronic spin-spin interaction as well as the spectral width of the laser pulse. This analysis reveals the counterbalancing effect of the total dephasing time when increasing the spectral laser width. On one hand, the deviations of the electron \(g\)-factors increase. On the other hand, an increasing number of coherently pumped electron spins synchronize due to the spin-spin interaction. 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| subjects | Circular polarization Computer simulation Couplings Electron spin Electrons Laser pumping Lasers Mathematical models Physics - Mesoscale and Nanoscale Physics Polarization (spin alignment) Polarized light Probability distribution functions Quantum dots Quantum mechanics Spin dynamics |
| title | Signatures of long-range spin-spin interactions in an (In,Ga)As quantum dot ensemble |
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