Bose-Einstein condensation in dilute atomic gases
... to include finite temperatures and a hierarchy of length scales. The presence of the normal cloud in addition to the condensate can be described by a two-fluid model, similar to the normal and superfluid phases of liquid helium. Two fluids should give rise to two different modes. In the collisionless reg ...
... to include finite temperatures and a hierarchy of length scales. The presence of the normal cloud in addition to the condensate can be described by a two-fluid model, similar to the normal and superfluid phases of liquid helium. Two fluids should give rise to two different modes. In the collisionless reg ...
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... colossal magneto-resistance materials are considered as potential driving force behind further development of technology. Even though understanding the physics behind these materials is crucial for improving their properties and developing applications, it is very difficult because of complexity in ...
... colossal magneto-resistance materials are considered as potential driving force behind further development of technology. Even though understanding the physics behind these materials is crucial for improving their properties and developing applications, it is very difficult because of complexity in ...
Tunneling
... The infinitely wide step potential is a special case of the square barrier where the width L is infinite. To complete our look at various potential barriers we summarize a few ideas using the square barrier. ...
... The infinitely wide step potential is a special case of the square barrier where the width L is infinite. To complete our look at various potential barriers we summarize a few ideas using the square barrier. ...
Five Lecture Course on Basic Physics of
... • It is important that at such low temperatures a superconductor can be considered to be a single large quantum particle or molecule which is characterized by a single (BCS) wave function. • A huge amount of electrons is incorporated into a single quantum state. This is not possible for normal elect ...
... • It is important that at such low temperatures a superconductor can be considered to be a single large quantum particle or molecule which is characterized by a single (BCS) wave function. • A huge amount of electrons is incorporated into a single quantum state. This is not possible for normal elect ...
Chapter 3 Stoichiometry: Calculations with Chemical
... yields. According to the balanced equation 3 moles of GeF4 would produce 4 moles of GeF3H if the yield was 100% (which would be the theoretical yield). The % yield is only 92.6% meaning only 92.6% of 4 moles of GeF3H (0.926 x 4 = 3.704 moles) will be produced. To produce 8 moles of GeF3H, theoretica ...
... yields. According to the balanced equation 3 moles of GeF4 would produce 4 moles of GeF3H if the yield was 100% (which would be the theoretical yield). The % yield is only 92.6% meaning only 92.6% of 4 moles of GeF3H (0.926 x 4 = 3.704 moles) will be produced. To produce 8 moles of GeF3H, theoretica ...
8 Linear Momentum and Collisions
... 58 m/s, that the initial horizontal component of the velocity before impact is negligible, and that the ball remained in contact with the racquet for 5.0 ms (milliseconds)? Strategy This problem involves only one dimension because the ball starts from having no horizontal velocity component before i ...
... 58 m/s, that the initial horizontal component of the velocity before impact is negligible, and that the ball remained in contact with the racquet for 5.0 ms (milliseconds)? Strategy This problem involves only one dimension because the ball starts from having no horizontal velocity component before i ...
Particle Acceleration at Astrophysical
... occasionally be parallel to the solar wind velocity, i.e., radially from the sun. A given field line then remains connected to the bow shock for a long time, and the convection of particles away from the shock is inhibited. Also, the entire head of the bow shock has a quasi-parallel geometry. Under ...
... occasionally be parallel to the solar wind velocity, i.e., radially from the sun. A given field line then remains connected to the bow shock for a long time, and the convection of particles away from the shock is inhibited. Also, the entire head of the bow shock has a quasi-parallel geometry. Under ...
Polynomial-Time Algorithms for Prime Factorization and Discrete
... For quantum computation, in addition to \space" and \time," there is also a third potential resource, \accuracy." For a quantum computer to work, at least in any currently envisioned implementation, it will need to make changes in the quantum states of objects (e.g., atoms, photons, or atomic nuclei ...
... For quantum computation, in addition to \space" and \time," there is also a third potential resource, \accuracy." For a quantum computer to work, at least in any currently envisioned implementation, it will need to make changes in the quantum states of objects (e.g., atoms, photons, or atomic nuclei ...
PHY332 Atomic and Laser Physics AM FOX
... The first basic concept we need is that of bound states. Atoms are held together by the attractive force between the positively-charged nucleus and the negatively-charged electrons: the electrons are bound to the atom, rather than being free to move though space. In the limit where the electron is v ...
... The first basic concept we need is that of bound states. Atoms are held together by the attractive force between the positively-charged nucleus and the negatively-charged electrons: the electrons are bound to the atom, rather than being free to move though space. In the limit where the electron is v ...
43 In Fig
... 1. Understand the concept of translation and rotation; 2. Master the kinematic equations for constant angular acceleration; 3. Master the relationship between the linear and angular variables; 4. Master kinetic energy of rotation; 5. Master the calculation of the rotational inertia; 6. Master the pa ...
... 1. Understand the concept of translation and rotation; 2. Master the kinematic equations for constant angular acceleration; 3. Master the relationship between the linear and angular variables; 4. Master kinetic energy of rotation; 5. Master the calculation of the rotational inertia; 6. Master the pa ...
Quantum Monte Carlo, or, how to solve the many
... places). Nevertheless we all derive comfort from precision, and for good reason. QMC calculations may have to be run for a considerable time to get the error bar down to an acceptable value, particularly in cases where one has to compute differences between two similar but imprecise numbers (the err ...
... places). Nevertheless we all derive comfort from precision, and for good reason. QMC calculations may have to be run for a considerable time to get the error bar down to an acceptable value, particularly in cases where one has to compute differences between two similar but imprecise numbers (the err ...
