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200 10$aAlgebraic curves over a finite field /$fJ. W. P. Hirschfeld, G. Korchmaros, F. Torres
205   $aCourse Book
210  1$aPrinceton, New Jersey :$cPrinceton University Press,$d2008.
210  4$d©2008
215   $a1 online resource (717 p.)
225 1 $aPrinceton Series in Applied Mathematics
300   $aDescription based upon print version of record.
311 0 $a0-691-09679-1 
320   $aIncludes bibliographical references and index.
327   $tFront matter --$tContents --$tPreface --$tPART 1. General theory of curves --$tChapter One. Fundamental ideas --$tChapter Two. Elimination theory --$tChapter Three. Singular points and intersections --$tChapter Four. Branches and parametrisation --$tChapter Five. The function field of a curve --$tChapter Six. Linear series and the Riemann-Roch Theorem --$tChapter Seven. Algebraic curves in higher-dimensional spaces --$tPART 2. Curves over a finite field --$tChapter Eight. Rational points and places over a finite field --$tChapter Nine. Zeta functions and curves with many rational points --$tPART 3. Further developments --$tChapter Ten. Maximal and optimal curves --$tChapter Eleven. Automorphisms of an algebraic curve --$tChapter Twelve. Some families of algebraic curves --$tChapter Thirteen. Applications: codes and arcs --$tAppendix A. Background on field theory and group theory --$tAppendix B. Notation --$tBibliography --$tIndex
330   $aThis book provides an accessible and self-contained introduction to the theory of algebraic curves over a finite field, a subject that has been of fundamental importance to mathematics for many years and that has essential applications in areas such as finite geometry, number theory, error-correcting codes, and cryptology. Unlike other books, this one emphasizes the algebraic geometry rather than the function field approach to algebraic curves. The authors begin by developing the general theory of curves over any field, highlighting peculiarities occurring for positive characteristic and requiring of the reader only basic knowledge of algebra and geometry. The special properties that a curve over a finite field can have are then discussed. The geometrical theory of linear series is used to find estimates for the number of rational points on a curve, following the theory of Stöhr and Voloch. The approach of Hasse and Weil via zeta functions is explained, and then attention turns to more advanced results: a state-of-the-art introduction to maximal curves over finite fields is provided; a comprehensive account is given of the automorphism group of a curve; and some applications to coding theory and finite geometry are described. The book includes many examples and exercises. It is an indispensable resource for researchers and the ideal textbook for graduate students.
410  0$aPrinceton series in applied mathematics.
606   $aCurves, Algebraic
606   $aFinite fields (Algebra)
610   $aAbelian group.
610   $aAbelian variety.
610   $aAffine plane.
610   $aAffine space.
610   $aAffine variety.
610   $aAlgebraic closure.
610   $aAlgebraic curve.
610   $aAlgebraic equation.
610   $aAlgebraic extension.
610   $aAlgebraic function.
610   $aAlgebraic geometry.
610   $aAlgebraic integer.
610   $aAlgebraic number field.
610   $aAlgebraic number theory.
610   $aAlgebraic number.
610   $aAlgebraic variety.
610   $aAlgebraically closed field.
610   $aApplied mathematics.
610   $aAutomorphism.
610   $aBirational invariant.
610   $aCharacteristic exponent.
610   $aClassification theorem.
610   $aClifford's theorem.
610   $aCombinatorics.
610   $aComplex number.
610   $aComputation.
610   $aCyclic group.
610   $aCyclotomic polynomial.
610   $aDegeneracy (mathematics).
610   $aDegenerate conic.
610   $aDivisor (algebraic geometry).
610   $aDivisor.
610   $aDual curve.
610   $aDual space.
610   $aElliptic curve.
610   $aEquation.
610   $aFermat curve.
610   $aFinite field.
610   $aFinite geometry.
610   $aFinite group.
610   $aFormal power series.
610   $aFunction (mathematics).
610   $aFunction field.
610   $aFundamental theorem.
610   $aGalois extension.
610   $aGalois theory.
610   $aGauss map.
610   $aGeneral position.
610   $aGeneric point.
610   $aGeometry.
610   $aHomogeneous polynomial.
610   $aHurwitz's theorem.
610   $aHyperelliptic curve.
610   $aHyperplane.
610   $aIdentity matrix.
610   $aInequality (mathematics).
610   $aIntersection number (graph theory).
610   $aIntersection number.
610   $aJ-invariant.
610   $aLine at infinity.
610   $aLinear algebra.
610   $aLinear map.
610   $aMathematical induction.
610   $aMathematics.
610   $aMenelaus' theorem.
610   $aModular curve.
610   $aNatural number.
610   $aNumber theory.
610   $aParity (mathematics).
610   $aPermutation group.
610   $aPlane curve.
610   $aPoint at infinity.
610   $aPolar curve.
610   $aPolygon.
610   $aPolynomial.
610   $aPower series.
610   $aPrime number.
610   $aProjective plane.
610   $aProjective space.
610   $aQuadratic transformation.
610   $aQuadric.
610   $aResolution of singularities.
610   $aRiemann hypothesis.
610   $aScalar multiplication.
610   $aScientific notation.
610   $aSeparable extension.
610   $aSeparable polynomial.
610   $aSign (mathematics).
610   $aSingular point of a curve.
610   $aSpecial case.
610   $aSubgroup.
610   $aSylow theorems.
610   $aSystem of linear equations.
610   $aTangent.
610   $aTheorem.
610   $aTranscendence degree.
610   $aUpper and lower bounds.
610   $aValuation ring.
610   $aVariable (mathematics).
610   $aVector space.
615  0$aCurves, Algebraic.
615  0$aFinite fields (Algebra)
676   $a516.352
686   $aSK 240$2rvk
700   $aHirschfeld$b J. W. P$g(James William Peter),$f1940-$01660883
702   $aKorchma?ros$b G.
702   $aTorres$b F$g(Fernando),
801  0$bMiAaPQ
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906   $aBOOK
912   $a9910812510203321
996   $aAlgebraic curves over a finite field$94016428
997   $aUNINA

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200 10$a4th International Conference on Nanotechnologies and Biomedical Engineering $eProceedings of ICNBME-2019, September 18-21, 2019, Chisinau, Moldova /$fedited by Ion Tiginyanu, Victor Sontea, Serghei Railean
205   $a1st ed. 2020.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2020.
215   $a1 online resource (XLV, 835 p. 630 illus., 470 illus. in color.) 
225 1 $aIFMBE Proceedings,$x1433-9277 ;$v77
300   $aIncludes index.
311 08$a9783030318659 
311 08$a3030318656 
327   $a3D-Printed Sensor Array of Semiconducting Oxides -- Broad-band Spectroscopy of Nanoconfined Water Molecules -- Superconductivity and Weak Ferromagnetism in Inclination Bicrystal Interfaces of Bismuth and Antimony -- Unusual Size Dependence of Acoustic Properties in Layered Nanostructures -- Features of Radiative Recombination of Iron-doped Gallium Antimonide -- Change in Microstructure and Magnetic Properties of Transition Metal Nitride Thin Films by Substrate Temperature -- Structural and Photoluminescence Properties of Nanoparticles Formed by Laser Ablation of Porous Silicon in Ethanol and Liquid Nitrogen -- Quantum Interferences with Equidistant Three-level Quantum Wells -- Surface Modification of PVDF Copolymer Nanofiber by Chitosan/Ag(NP)/Nanosilica Composite -- Silanized Citric Acid Capped Magnetic Nanoparticles and Influence on Chlorophyll -- Hydrogels Based on Collagen and Dextran for Bioartificial Tissues.
330   $aThis book gathers the proceedings of the 4th International Conference on Nanotechnologies and Biomedical Engineering, held on September 18-21, 2019, in Chisinau, Republic of Moldova. It continues the tradition of the previous conference proceedings, thus reporting on both fundamental and applied research at the interface between nanotechnologies and biomedical engineering. Topics include: developments in bio-micro/nanotechnologies and devices; biomedical signal processing; biomedical imaging; biomaterials for biomedical applications; biomimetics; bioinformatics and e-health, and advances in a number of related areas. The book offers a timely snapshot of cutting-edge, multidisciplinary research and developments in the field of biomedical and nano-engineering. .
410  0$aIFMBE Proceedings,$x1433-9277 ;$v77
606   $aBiomedical engineering
606   $aNanotechnology
606   $aMedical physics
606   $aElectronics
606   $aBiomedical Engineering and Bioengineering
606   $aNanotechnology
606   $aMedical Physics
606   $aElectronics and Microelectronics, Instrumentation
615  0$aBiomedical engineering.
615  0$aNanotechnology.
615  0$aMedical physics.
615  0$aElectronics.
615 14$aBiomedical Engineering and Bioengineering.
615 24$aNanotechnology.
615 24$aMedical Physics.
615 24$aElectronics and Microelectronics, Instrumentation.
676   $a610.28
676   $a620.5
702   $aTiginyanu$b Ion$4edt$4http://id.loc.gov/vocabulary/relators/edt
702   $aSontea$b Victor$4edt$4http://id.loc.gov/vocabulary/relators/edt
702   $aRailean$b Serghei$4edt$4http://id.loc.gov/vocabulary/relators/edt
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