Quantum state discrimination is a fundamental problem in quantum information theory, with a multitude of configurations, though exact solutions are scarce. One notable case involves a circular array with two possible known states, where optimal discrimination is achieved via square root measurement. However, a general method for arbitrary unknown states lacks a closed-form solution. This work...
This project aimed to generate nonclassical states among micro and macro-objects. For this, we considered a cavity with perfectly reflecting mirrors where one of the mirrors was oscillating. Our desired outcome was to show that we can entangle classical macro-objects with micro-objects, such as a mechanical mirror and a photon, using quantum optics. The entanglement of classical objects would...
Ultracold quantum gases achieve exquisite platforms to explore few- and many-body phenomena with extreme control. Being the most magnetic element of the periodic table, dysprosium presents strong interatomic dipole-dipole interactions. Contrasting with the standard contact interactions, the dipolar interactions are long-range and anisotropic.
The relative strength between both types of...
UV photodetector has diverse applications ranging from advanced communications to leak detection. UV photodetectors play a crucial role in harnessing the power of UV light for various functions. The demand for more compact, precise, portable, and energy-efficient photodetectors has prompted the exploration of nanotechnology and nanofabrication techniques.
This study focuses on developing a...
Quantum Error Correction (QEC) is crucial for any practical implementation of Quantum Information protocols. It mitigates decoherence, compensates for imperfections in quantum operations, and is fundamental for scaling quantum algorithms. QEC enables reliable quantum computation on a larger scale. Our research focuses on establishing criteria to construct a logical basis for a Hybrid Quantum...
UV photodetector has diverse applications ranging from advanced communications to leak detection. UV photodetectors play a crucial role in harnessing the power of UV light for various functions. The demand for more compact, precise, portable, and energy-efficient photodetectors has prompted the exploration of nanotechnology and nanofabrication techniques.
This study focuses on developing a...
Quantum Error Correction (QEC) is crucial for any practical implementation of Quantum Information protocols. It mitigates decoherence, compensates for imperfections in quantum operations, and is fundamental for scaling quantum algorithms. QEC enables reliable quantum computation on a larger scale. Our research focuses on establishing criteria to construct a logical basis for a Hybrid Quantum...
Quantum state discrimination is a fundamental problem in quantum information theory, with a multitude of configurations, though exact solutions are scarce. One notable case involves a circular array with two possible known states, where optimal discrimination is achieved via square root measurement. However, a general method for arbitrary unknown states lacks a closed-form solution. This work...
This project aimed to generate nonclassical states among micro and macro-objects. For this, we considered a cavity with perfectly reflecting mirrors where one of the mirrors was oscillating. Our desired outcome was to show that we can entangle classical macro-objects with micro-objects, such as a mechanical mirror and a photon, using quantum optics. The entanglement of classical objects would...
Ultracold quantum gases achieve exquisite platforms to explore few- and many-body phenomena with extreme control. Being the most magnetic element of the periodic table, dysprosium presents strong interatomic dipole-dipole interactions. Contrasting with the standard contact interactions, the dipolar interactions are long-range and anisotropic.
The relative strength between both types of...