Lecture Notes on Statistical Mechanics and Thermodynamics
... As the name suggests, thermodynamics historically developed as an attempt to understand phenomena involving heat. This notion is intimately related to irreversible processes involving typically many, essentially randomly excited, degrees of freedom. The proper understanding of this notion as well as ...
... As the name suggests, thermodynamics historically developed as an attempt to understand phenomena involving heat. This notion is intimately related to irreversible processes involving typically many, essentially randomly excited, degrees of freedom. The proper understanding of this notion as well as ...
Passage of Charged Particles in matter Abstract
... In this report, I study the passage of charged particles in matter. When charged particles enter a material medium they interact with the electrons and nuclei of the medium and lose energy as they penetrate into the medium. The energy given off results in excitation or ionization of the atoms in the ...
... In this report, I study the passage of charged particles in matter. When charged particles enter a material medium they interact with the electrons and nuclei of the medium and lose energy as they penetrate into the medium. The energy given off results in excitation or ionization of the atoms in the ...
... with optimal solution times increasing faster than this (e.g., as an exponential function of the input size for sufficiently large values) are considered to be intractable. The technological potential for quantum computing was first realized in the formulation by Shor (1994) of a polynomial-time qua ...
Quantum Cryptography
... Quantum Computing algorithm for factoring. • In 1994 Peter Shor from the AT&T Bell Laboratory showed that in principle a quantum computer could factor a very long product of primes in seconds. • Shor’s algorithm time computational complexity is ...
... Quantum Computing algorithm for factoring. • In 1994 Peter Shor from the AT&T Bell Laboratory showed that in principle a quantum computer could factor a very long product of primes in seconds. • Shor’s algorithm time computational complexity is ...
PPT1
... Since bosons are indistinguishable these Fock states fully describe the state of one species of bosons in a single motional state ...
... Since bosons are indistinguishable these Fock states fully describe the state of one species of bosons in a single motional state ...
PPT - ICRA
... Conclusions 1- The requirement of beta decay equilibrium appears to be necessary for obtaining from first principles the phenomenological relations between A and Np adopted in superheavy nuclei. 2-The Thomas-Fermi equation is a good example of the possibility that collective effects of relativistic ...
... Conclusions 1- The requirement of beta decay equilibrium appears to be necessary for obtaining from first principles the phenomenological relations between A and Np adopted in superheavy nuclei. 2-The Thomas-Fermi equation is a good example of the possibility that collective effects of relativistic ...
Dissipative decoherence in the Grover algorithm
... static energy shifts of individual qubits which may generate many-body quantum chaos in a quantum computer hardware [11]. This second type of errors, e.g. static imperfections, gives a more rapid decay of fidelity as it has been shown in [12,10]. In the case of quantum algorithms for a complex dynam ...
... static energy shifts of individual qubits which may generate many-body quantum chaos in a quantum computer hardware [11]. This second type of errors, e.g. static imperfections, gives a more rapid decay of fidelity as it has been shown in [12,10]. In the case of quantum algorithms for a complex dynam ...
Quantum mechanics of electrons in strong magnetic field
... interface electrons are trapped and behave as a two dimensional electron gas. The energy spectrum of the electrons is completely discrete if the external magnetic field is applied perpendicular to the interface. This results in unusual magnetotransport phenomena which we will discuss later in more d ...
... interface electrons are trapped and behave as a two dimensional electron gas. The energy spectrum of the electrons is completely discrete if the external magnetic field is applied perpendicular to the interface. This results in unusual magnetotransport phenomena which we will discuss later in more d ...
