Physik-Department Technische Universität München
... my attention was in the “Mathematical Recreations” column, which, at that time, was written by the mathematician Ian Stewart. The article dealt with Fermat’s last theorem. Even if I did not understand a single line on Diophantine equations and I was mostly interested in the intriguing illustration c ...
... my attention was in the “Mathematical Recreations” column, which, at that time, was written by the mathematician Ian Stewart. The article dealt with Fermat’s last theorem. Even if I did not understand a single line on Diophantine equations and I was mostly interested in the intriguing illustration c ...
Nonlocality in multipartite correlation networks LARS ERIK WÜRFLINGER
... cannot be created by these operations. As it turns out, the standard definition of multipartite nonlocality, adopted by the community so far, is inconsistent with our operational characterisation. Therefore, we introduce a new class of models that overcome these inconsistencies. By using a special cl ...
... cannot be created by these operations. As it turns out, the standard definition of multipartite nonlocality, adopted by the community so far, is inconsistent with our operational characterisation. Therefore, we introduce a new class of models that overcome these inconsistencies. By using a special cl ...
Theoretical treatment of miscellaneous frequency-shifts
... order to increase the path length of electrons in a glow discharge tube [119] that would become a vacuum gauge [120]—is more than an apparatus for storing charged particles. Owing to the storage by entirely static fields, the ion dynamics in a Penning trap are much more conducive to a theoretical tr ...
... order to increase the path length of electrons in a glow discharge tube [119] that would become a vacuum gauge [120]—is more than an apparatus for storing charged particles. Owing to the storage by entirely static fields, the ion dynamics in a Penning trap are much more conducive to a theoretical tr ...
IIT-JEE 2010 - Career Point Kota
... departments and collected a map of the college. Roy added that their main focus, ...
... departments and collected a map of the college. Roy added that their main focus, ...
Schaum`s Outline of Theory and Problems of
... that tremendous quantities of energy are associated with conversions of minute quantities of matter to energy. The quantity of mass accounted for by the energy contained in a material object is so small that it is not measurable. Hence, the mass of an object is very nearly identical to the quantity ...
... that tremendous quantities of energy are associated with conversions of minute quantities of matter to energy. The quantity of mass accounted for by the energy contained in a material object is so small that it is not measurable. Hence, the mass of an object is very nearly identical to the quantity ...
Measuring a single spin in an arbitrary direction A spin 1/2
... Note that the sum of all probabilities is unity and that the probability of having "two spins the same" and "two spins opposite" is 1/2, i.e. there is spin - inversion symmetry. Also note that the probability for a given outcome depends only on the (cosine of the) angle between the two detectors and ...
... Note that the sum of all probabilities is unity and that the probability of having "two spins the same" and "two spins opposite" is 1/2, i.e. there is spin - inversion symmetry. Also note that the probability for a given outcome depends only on the (cosine of the) angle between the two detectors and ...
Quantum dots on bilayer graphene made on a substrate of boron
... the size of the dot, due to which the electrons occupy discrete energy levels and have a discrete excitation spectrum. A quantum dot has another characteristic called the charging energy; this is the energy required to add or remove a single electron from the dot [1]. The ability to control current ...
... the size of the dot, due to which the electrons occupy discrete energy levels and have a discrete excitation spectrum. A quantum dot has another characteristic called the charging energy; this is the energy required to add or remove a single electron from the dot [1]. The ability to control current ...
Design, synthesis and study of coordination complexes for quantum computing
... the interaction with an external magnetic field (a phenomenon known as Zeeman effect). This splitting is governed by the gyromagnetic factor gs, which slightly differs from the g-factor of a free electron ge = 2.0023 (also known as Landé factor) due to the coupling between the ground-state and the e ...
... the interaction with an external magnetic field (a phenomenon known as Zeeman effect). This splitting is governed by the gyromagnetic factor gs, which slightly differs from the g-factor of a free electron ge = 2.0023 (also known as Landé factor) due to the coupling between the ground-state and the e ...
Microwave Spectroscopy of Two-Dimensional Electrons in Tilted Magnetic Field
... was a 2DES of density ∼ 108 /cm2 spread on the surface of liquid helium (72), and a crystal was observed which had the predicted triangular lattice structure (10). Such a crystal was classical because the thermal energy is much larger than the Fermi energy. A quantum 2D WS (in zero magnetic field) i ...
... was a 2DES of density ∼ 108 /cm2 spread on the surface of liquid helium (72), and a crystal was observed which had the predicted triangular lattice structure (10). Such a crystal was classical because the thermal energy is much larger than the Fermi energy. A quantum 2D WS (in zero magnetic field) i ...
David - Collegiate Quiz Bowl Packet
... Ans: knot (accept link before "embedding of a circle") 2. John Webb's research suggests it might have changed by 1 part in 100,000 over the past 12 billion years. Its value can be calculated from the quantum Hall effect using the von Klitzing resistance, or from the expansion of the gyromagnetic rat ...
... Ans: knot (accept link before "embedding of a circle") 2. John Webb's research suggests it might have changed by 1 part in 100,000 over the past 12 billion years. Its value can be calculated from the quantum Hall effect using the von Klitzing resistance, or from the expansion of the gyromagnetic rat ...
mcdonald (pam78654) – HW 1: High School Concepts – laude
... In this case, all of these numbers are whole numbers or are close enough for rounding to a whole number. The empirical formula is C3 H3 O. Next we find the molecular formula. The molecular formula gives the actual number of atoms of each element present in a molecule of the compound. We were given t ...
... In this case, all of these numbers are whole numbers or are close enough for rounding to a whole number. The empirical formula is C3 H3 O. Next we find the molecular formula. The molecular formula gives the actual number of atoms of each element present in a molecule of the compound. We were given t ...
Ph125: Quantum Mechanics
... The state of a particle is represented by a vector |ψ(t) i in a Hilbert space. What do we mean by this? We shall define Hilbert space and vectors therein rigorously later; it suffices to say for now that a vector in a Hilbert space is a far more complicated thing than the two numbers x and p that wo ...
... The state of a particle is represented by a vector |ψ(t) i in a Hilbert space. What do we mean by this? We shall define Hilbert space and vectors therein rigorously later; it suffices to say for now that a vector in a Hilbert space is a far more complicated thing than the two numbers x and p that wo ...
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).