Quantum Interference of Unpolarized Single Photons
... combined with a sufficiently short time of less than 1 µs needed for the atomic state read-out, allows to close the locality loophole. As the states of the atoms can always be measured, the detection efficiency is intrinsically 1, closing the detection loophole as well. In our setup, we exploit the ...
... combined with a sufficiently short time of less than 1 µs needed for the atomic state read-out, allows to close the locality loophole. As the states of the atoms can always be measured, the detection efficiency is intrinsically 1, closing the detection loophole as well. In our setup, we exploit the ...
10 EPR Spectroscopy
... and resonance frequencies, i.e. to lower resolution. To some extent this lower resolution is compensated by a larger spread of magnetic parameters. The equivalent to the chemical shift in NMR is the relative deviation (g-ge)/ge of the electron g value from the ge value for the free electron. This de ...
... and resonance frequencies, i.e. to lower resolution. To some extent this lower resolution is compensated by a larger spread of magnetic parameters. The equivalent to the chemical shift in NMR is the relative deviation (g-ge)/ge of the electron g value from the ge value for the free electron. This de ...
pdf
... Two sets of studies are described in this thesis. In the first set, an atom interferometry technique was developed for the measurement of the fine structure constant using a BoseEinstein Condensate. In the second set, degenerate Fermi gases were prepared and their properties explored in a regime of st ...
... Two sets of studies are described in this thesis. In the first set, an atom interferometry technique was developed for the measurement of the fine structure constant using a BoseEinstein Condensate. In the second set, degenerate Fermi gases were prepared and their properties explored in a regime of st ...
Solutions Manual
... We can write the last expression above as changes in the total energy as ∆ E = 12 ∆PE = 12 ( −9.12 eV) = −4.56 eV This is the change in the total energy which is negative. The H2 molecule has lower energy than two H-atoms by 4.56 eV which is the bonding energy. This is very close to the experimental ...
... We can write the last expression above as changes in the total energy as ∆ E = 12 ∆PE = 12 ( −9.12 eV) = −4.56 eV This is the change in the total energy which is negative. The H2 molecule has lower energy than two H-atoms by 4.56 eV which is the bonding energy. This is very close to the experimental ...
Quantum Computation: Theory and Implementation
... Quantum Computation: Theory and Implementation by Edward Stuart Boyden III Submitted to the Department of Physics in Partial Fulfillment of the Requirements for the Degree of Bachelor of Science in Physics and to the Department of Electrical Engineering and Computer Science in Partial Fulfillment of ...
... Quantum Computation: Theory and Implementation by Edward Stuart Boyden III Submitted to the Department of Physics in Partial Fulfillment of the Requirements for the Degree of Bachelor of Science in Physics and to the Department of Electrical Engineering and Computer Science in Partial Fulfillment of ...
Topological Quantum: Lecture Notes
... If you have two complicated knots and you do not know if they are topologically equivalent, you just plug them into the Kauffman machinery and if they don’t give the same output then you know immediately that they cannot be deformed into each other without cutting4 . However, a bit of thought indica ...
... If you have two complicated knots and you do not know if they are topologically equivalent, you just plug them into the Kauffman machinery and if they don’t give the same output then you know immediately that they cannot be deformed into each other without cutting4 . However, a bit of thought indica ...
Ultracold rubidium atoms in periodic potentials Robert
... quickly growing field of physics. During this era, a Bengali physicist, S. N. Bose, active at Dacca University in todays Bangladesh, sent a study to the famous physicist A. Einstein. In this study, S. N. Bose derives Planck’s radiation law from a statistical physics point of view, excluding the use ...
... quickly growing field of physics. During this era, a Bengali physicist, S. N. Bose, active at Dacca University in todays Bangladesh, sent a study to the famous physicist A. Einstein. In this study, S. N. Bose derives Planck’s radiation law from a statistical physics point of view, excluding the use ...
Ph.D. Thesis Giuseppe Prettico
... unlockability, can be translated to bound information. We also provide another common feature of both resources. Although non-distillable, they can help to distribute pure state entanglement and multipartite secret correlations, respectively, when a new party is added to the considered scenario. We ...
... unlockability, can be translated to bound information. We also provide another common feature of both resources. Although non-distillable, they can help to distribute pure state entanglement and multipartite secret correlations, respectively, when a new party is added to the considered scenario. We ...
Progress Towards the Quantum Limit: High and Low Frequency Measurements of
... Nano-electro-mechanical systems (NEMS) in particular provide an opportunity to study macroscopic and theoretically quantum mechanical systems up close. Cantilevers or doubly-clamped beams on the order of 100 − 1000 nm in size and weighing 10−15 − 10−17 g have already provided extremely sensitive too ...
... Nano-electro-mechanical systems (NEMS) in particular provide an opportunity to study macroscopic and theoretically quantum mechanical systems up close. Cantilevers or doubly-clamped beams on the order of 100 − 1000 nm in size and weighing 10−15 − 10−17 g have already provided extremely sensitive too ...
hydrodynamics of a rotating strongly interacting fermi gas
... made possible through the use of the microscope, and devices such as particle accelerators allow the predictions of the Standard Model to be tested. Without the initial development of the experimental tools, the resultant scientific advancements would not be possible. This dissertation presents a st ...
... made possible through the use of the microscope, and devices such as particle accelerators allow the predictions of the Standard Model to be tested. Without the initial development of the experimental tools, the resultant scientific advancements would not be possible. This dissertation presents a st ...
Spin-Resolved Spectroscopic Studies of Topologically Ordered Materials
... my graduate career, and his enthusiasm and leadership are the driving forces of our lab. I am also indebted to my colleagues for their help and friendship. Yinwan Li introduced me to the theory and operation of neutron scattering instruments when I first arrived at Princeton. Dong Qian taught me eve ...
... my graduate career, and his enthusiasm and leadership are the driving forces of our lab. I am also indebted to my colleagues for their help and friendship. Yinwan Li introduced me to the theory and operation of neutron scattering instruments when I first arrived at Princeton. Dong Qian taught me eve ...
Hydrogen atom
A hydrogen atom is an atom of the chemical element hydrogen. The electrically neutral atom contains a single positively charged proton and a single negatively charged electron bound to the nucleus by the Coulomb force. Atomic hydrogen constitutes about 75% of the elemental (baryonic) mass of the universe.In everyday life on Earth, isolated hydrogen atoms (usually called ""atomic hydrogen"" or, more precisely, ""monatomic hydrogen"") are extremely rare. Instead, hydrogen tends to combine with other atoms in compounds, or with itself to form ordinary (diatomic) hydrogen gas, H2. ""Atomic hydrogen"" and ""hydrogen atom"" in ordinary English use have overlapping, yet distinct, meanings. For example, a water molecule contains two hydrogen atoms, but does not contain atomic hydrogen (which would refer to isolated hydrogen atoms).