Transient dynamics in electromagnetically induced transparency
Date
2024
Authors
Khani, Jamal Mohammad
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Abstract
Electromagnetically Induced Transparency (EIT) has proven to be an invaluable resource for numerous applications in quantum technology, specifically in quantum memories, quantum repeaters, and quantum sensors. EIT also has significant applications in fundamental physics and nonlinear optics. Given that EIT is a foundational component of future quantum technology, a comprehensive understanding of its parameters is essential for the development of future devices.
This thesis focuses on the transient dynamics of EIT, specifically examining oscillations in the absorption of the Probe Field (PF) as a means to determine the decoherence of the ground states. Transient EIT has been explored in previous theoretical and experimental studies across various systems, including Cold Atoms (CAs) and hot vapor media. Here, transient EIT is studied theoretically, numerically, and experimentally. Parameter exploration has been conducted to understand the effects of different parameters on the transient behavior of EIT and to identify which decoherence mechanisms have the most significant impact on the quality of EIT. Experimentally, we explored a hot atomic vapour of, naturally abundant Rubidium (Rb) atoms. Additionally, progress towards constructing a CAs system, using a Magneto-Optical Trap (MOT) from scratch was made, opening the door to future studies of this system.
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Keywords
EIT, Quantum memory, Electromagnetically induced transparency, QuTiP, MOT, Magneto-optical trap