07_Entanglement_in_nuclear_quadrupole_resonance_
... fitted by a linear dependence on the magnetization in the temperature and magnetic field range up to a deviation of the magnetization from Curie's law and, following, the magnetization can be used as an entanglement witness for such systems ...
... fitted by a linear dependence on the magnetization in the temperature and magnetic field range up to a deviation of the magnetization from Curie's law and, following, the magnetization can be used as an entanglement witness for such systems ...
Lectures6and7
... Electric Fields near Conductors •No electric field inside the conductor •Electric field outside cannot be tangential – must be perpendicular •Add a gaussian pillbox that penetrates the surface Area A ...
... Electric Fields near Conductors •No electric field inside the conductor •Electric field outside cannot be tangential – must be perpendicular •Add a gaussian pillbox that penetrates the surface Area A ...
Magnetism - Orange Public Schools
... about earlier). By convention, fields lines always leave the north pole and enter the south pole of a magnet. To create a uniform field, a small gap is created between two relatively large opposite magnetic poles; the field is then constant between th ...
... about earlier). By convention, fields lines always leave the north pole and enter the south pole of a magnet. To create a uniform field, a small gap is created between two relatively large opposite magnetic poles; the field is then constant between th ...
Group-Symmetries and Quarks - USC Department of Physics
... The Group SU(3) • The set of 3×3 matrices with detU = 1 for the group SU(3) • Fundamental representation of SU(3) is a triplet • The color charges of Quark R, G, B form a SU(3) symmetry group. They are denoted by λi, with i = 1,2,…,8. • The diagonal matrices are: ...
... The Group SU(3) • The set of 3×3 matrices with detU = 1 for the group SU(3) • Fundamental representation of SU(3) is a triplet • The color charges of Quark R, G, B form a SU(3) symmetry group. They are denoted by λi, with i = 1,2,…,8. • The diagonal matrices are: ...
Lecture_10
... small intrinsic magnetic dipole moment, and they tend to align somewhat with an external magnetic field, increasing it slightly. Molecules of diamagnetic materials have no intrinsic magnetic dipole moment; an external field induces a small dipole moment, but in such a way that the total field is sli ...
... small intrinsic magnetic dipole moment, and they tend to align somewhat with an external magnetic field, increasing it slightly. Molecules of diamagnetic materials have no intrinsic magnetic dipole moment; an external field induces a small dipole moment, but in such a way that the total field is sli ...
chapter20
... • Self-inductance occurs when the changing flux through a circuit arises from the circuit itself. – As the current increases, the magnetic flux through a loop due to this current also increases. – The increasing flux induces an emf that opposes the change in magnetic flux. – As the magnitude of the ...
... • Self-inductance occurs when the changing flux through a circuit arises from the circuit itself. – As the current increases, the magnetic flux through a loop due to this current also increases. – The increasing flux induces an emf that opposes the change in magnetic flux. – As the magnitude of the ...
The Addition Theorem for Spherical Harmonics and Monopole
... u0 and v 0. The gauge factors just cancel out in the case of the spherical harmonics. This was the main content of [4]. Following their previous paper [3], Wu and Yang studied the addition theorem of the monople harmonics in [8]. The addition theorem is just a manifestation of the composition of two ...
... u0 and v 0. The gauge factors just cancel out in the case of the spherical harmonics. This was the main content of [4]. Following their previous paper [3], Wu and Yang studied the addition theorem of the monople harmonics in [8]. The addition theorem is just a manifestation of the composition of two ...
Ch16_2008
... electric field is the direction of the force felt by a positive charge •If there are two or more charges creating the field then the field at any point is the vector sum of the fields created by each of the charges •The test charge does not contribute to the field and it is too weak to cause any of ...
... electric field is the direction of the force felt by a positive charge •If there are two or more charges creating the field then the field at any point is the vector sum of the fields created by each of the charges •The test charge does not contribute to the field and it is too weak to cause any of ...
Magnetic monopole
A magnetic monopole is a hypothetical elementary particle in particle physics that is an isolated magnet with only one magnetic pole (a north pole without a south pole or vice versa). In more technical terms, a magnetic monopole would have a net ""magnetic charge"". Modern interest in the concept stems from particle theories, notably the grand unified and superstring theories, which predict their existence.Magnetism in bar magnets and electromagnets does not arise from magnetic monopoles. There is no conclusive experimental evidence that magnetic monopoles exist at all in our universe.Some condensed matter systems contain effective (non-isolated) magnetic monopole quasi-particles, or contain phenomena that are mathematically analogous to magnetic monopoles.