Classical and quantum relative entropy
| dc.contributor.advisor | Molnár, Lajos | |
| dc.contributor.author | Szokol, Patrícia Ágnes | |
| dc.contributor.department | DE--TEK--Természettudományi és Technológiai Kar--Matematikai Intézet | hu_HU |
| dc.date.accessioned | 2010-05-06T06:05:11Z | |
| dc.date.available | 2010-05-06T06:05:11Z | |
| dc.date.created | 2010 | |
| dc.date.issued | 2010-05-06T06:05:11Z | |
| dc.description.abstract | The concept of entropy rst arose in the study of thermodynamics and statistical me- chanics. In information theory the so-called Shannon entropy plays a signi cant role, which measures how much information we gain, on average, when we learn the value of a random variable. An alternative interpretation is that the entropy of the random variable quanti es the amount of uncertainty about the random variable before we learn its value. The concept was introduced by Claude E. Shannon in his 1948 paper "A Mathematical Theory of Communication". In the rst part of the present work we consider this fundamental measure of information and show some of its properties, such as non-negativity. The relative entropy or the Kullback-Leibler divergence is a very useful measure of the distance between two prob- ability distributions. After introducing its de nition and other notions (joint entropy, conditional entropy or mutual information) we can prove additional assertions about the Shannon entropy and present statements about the relations between the above men- tioned quantities. In quantum information theory, there is a quantity, namely von Neumann entropy, which corresponds to Shannon entropy and originates from it. In the section Von Neu- mann entropy we will introduce this quantity which is a continuous functional on the states, or on their mathematical representatives, the density operators, and it ful ls in- equalities such as subadditivity and strong subaddititvity. Just as with the Shannon entropy, it is extremely useful to de ne a quantum version of the relative entropy, which is one of the most important numerical quantities appearing in quantum information theory. It is used as a measure of distinguishability between quantum states. Among others its properties are jointly convexity, monotonicity which are speci cally convenient. Transformations on structures which preserve operations, quantities or relations among elements appear in many areas of mathematics. These are the so-called preservers which show up also in physics and even in chemistry where they are usually called symmetries. Therefore, the study of preserver transformations is an important area of research. The third section of this work is based on a paper, in which Lajos Molnár described the structure every bijective map on the space of all density operators on a given Hilbert space, which preserves the relative entropy. This result is closely related to Wigner's famous theorem on the form of quantum mechanical symmetry transformations. The above theorem of Molnár can be extended into two directions. On the one hand, the result holds also in the case when the transformation under consideration acts on the space of all positive semide nite operators not only on density operators (i.e., we omit the condition of unit trace). On the other hand the statement remains valid even if we omit the strongly restrictive condition that the transformation is bijective. The second result is a joint work with Prof. Lajos Molnár which appeared in the journal Linear Algebra and Its Applications. | hu_HU |
| dc.description.corrector | gj | |
| dc.description.course | Alkalmazott matematikus | hu_HU |
| dc.description.degree | régi képzés | hu_HU |
| dc.format.extent | 46. | hu_HU |
| dc.identifier.uri | http://hdl.handle.net/2437/95591 | |
| dc.language.iso | en | hu_HU |
| dc.subject | Shannon entropy | hu_HU |
| dc.subject | Von Neumann entropy | hu_HU |
| dc.subject | Relative entropy | hu_HU |
| dc.subject | Density operators | hu_HU |
| dc.subject | Quantum states | hu_HU |
| dc.subject | Preservers | hu_HU |
| dc.subject.dspace | DEENK Témalista::Matematika::Matematikai analízis | hu_HU |
| dc.title | Classical and quantum relative entropy | hu_HU |
| dc.title.translated | Klasszikus és kvantum relatív entrópia | hu_HU |