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Master of Science2016 - 2016 (1 month)
MSc in Optics2015 - 2016 (1 year)
Bachelor of Science in Physics2008 - 2014 (6 years)
Workshop student at “Quantum, Nano and Nonlinear Optics LAOP, 2014” (2014)LAOP
Participation as a attendant student
The cross-cavity photon dark state
The experimental and QED dynamics of a JCM micromaser relies on the JCM fully solvability. We discuss an analogous case, an X-cavity, where a new quantum feature produced by the x-cavity has not been accounted.
Zero Rabi Flopping in the presence of a Field
The idle role of the photonic dark state of the X-Cavity JCM is quite an interesting feature because arises from the dipole orientation. We discuss the zero Rabi flopping in its presence and discuss its evidence.
Noncontact Optical Fiber Sensor for Measuring the Refractive Index of Liquids
A noncontact optical fiber sensor for measuring the refractive index of transparent liquids is proposed. It operates by calculating the path of a focused laser beam at 635 nm that travels across the boundaries of a liquid sample. The optical power Fresnel reflections are detected and, subsequently, the refractive index is determined as the ratio between the traveled beam paths when the liquid is deposited versus a reference without the liquid sample. Additionally, a mathematical analysis of...
High-power Tunable Erbium-doped Fiber Laser Based on MMI Effect
Proceedings of SPIE. International Society for Optics and Photonics.
Novel optical refraction index sensor
This works describes a novel optical refraction index sensor which is based on the analysis of double reflection lecture detection. This process initially identifies the thickness of a semitransparent solid o liquid material by the retro-reflection of a laser diode at 633nm as a function of distance along the device under test with a Z-axis scanner to find the focusing point. This feedback signal brings how far traveled the beam path which is indirectly related…
Wigner Function of the Field in the Two-Dimensional Jaynes-Cummings Model
We analyze the Wigner function desribing thee cavity field in the [url removed, login to view] analyze the coherence properties of the quantum field in a two-dimensional matter-field interaction model. Such properties are discussed through the Wigner function and the expected value of the quadrature operators