El grupo de Termodinámica y Computación Cuántica les invita al siguiente seminario
Fecha: 10 Julio, 2023
Hora: 12:00 am
Lugar: Laboratorio de Fïsica Computacional, Dept de Electromagnetismo y Física de al Materia, Planta Baja, Facultad de Ciencias (junto al péndulo gigante)
Ponente: Joaquín J. Torres (Departaménto de Electromagnetísmo y Física de la Matéria)
Titulo: A biological inspired quantum synapse paradigm
Resumen: In this talk, I will review our recent research on the development of quantum neural networks, including biologically inspired dynamic qubits interactions. Our motivation was to build quantum versions of synaptic processes as they occur in real neural systems, that is, to build "quantum synapses" between qubits. In particular, I will report the results on the study of a minimal model of two interacting qubits with an activity-dependent dynamic interaction as in classical dynamic synapses that induce the so-called synaptic depression, that is, synapses that exhibit synaptic fatigue after a strong presynaptic stimulation. Our study shows that such time-dependent interaction induces Rabi oscillations whose frequency decreases when synaptic depression is introduced, thus excitations can be trapped for a long period of time. This creates a population imbalance between the qubits even though the Hamiltonian is Hermitian. This imbalance can be maintained over time by introducing a small energy change between the qubits. We have also shown that long-time entanglement between the two qubits increases naturally in the presence of synaptic depression. Furthermore, I will describe the analysis of a plausible experimental setup of our two-qubit system that demonstrates that these results are robust and achievable experimentally in a laboratory, and I will illustrate preliminary results related to the extension of our system to larger quantum neural networks.
Nos vemos a todos allí
DJM
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Dear all
The Quantum Thermodynamics and Computation group cordially invites you to the following seminar
Date: 10 July, 2023
Time: 12:00 am
Location: Computational Physics Laboratory, Department of Electromagnetism and Condensed Mater, Ground Floor, Faculty of Science (next to the giant pendulum)
Speaker: Joaquín J. Torres (Department of Electromagnetism and Condensed Matter)
Title: A biological inspired quantum synapse paradigm
Abstract: In this talk, I will review our recent research on the development of quantum neural networks, including biologically inspired dynamic qubits interactions. Our motivation was to build quantum versions of synaptic processes as they occur in real neural systems, that is, to build "quantum synapses" between qubits. In particular, I will report the results on the study of a minimal model of two interacting qubits with an activity-dependent dynamic interaction as in classical dynamic synapses that induce the so-called synaptic depression, that is, synapses that exhibit synaptic fatigue after a strong presynaptic stimulation. Our study shows that such time-dependent interaction induces Rabi oscillations whose frequency decreases when synaptic depression is introduced, thus excitations can be trapped for a long period of time. This creates a population imbalance between the qubits even though the Hamiltonian is Hermitian. This imbalance can be maintained over time by introducing a small energy change between the qubits. We have also shown that long-time entanglement between the two qubits increases naturally in the presence of synaptic depression. Furthermore, I will describe the analysis of a plausible experimental setup of our two-qubit system that demonstrates that these results are robust and achievable experimentally in a laboratory, and I will illustrate preliminary results related to the extension of our system to larger quantum neural networks.
See you all there
DJM.
