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Zariskian Filtrations [electronic resource] /
In Commutative Algebra certain /-adic filtrations of Noetherian rings, i.e. the so-called Zariski rings, are at the basis of singularity theory. Apart from that it is mainly in the context of Homological Algebra that filtered rings and the associated graded rings are being studied not in the least because of the importance of double complexes and their spectral sequences. Where non-commutative algebra is concerned, applications of the theory of filtrations were mainly restricted to the study of enveloping algebras of Lie algebras and, more extensively even, to the study of rings of differential operators. It is clear that the operation of completion at a filtration has an algebraic genotype but a topological fenotype and it is exactly the symbiosis of Algebra and Topology that works so well in the commutative case, e.g. ideles and adeles in number theory or the theory of local fields, Puisseux series etc, .... . In Non commutative algebra the bridge between Algebra and Analysis is much more narrow and it seems that many analytic techniques of the non-commutative kind are still to be developed. Nevertheless there is the magnificent example of the analytic theory of rings of differential operators and 1J-modules a la Kashiwara-Shapira.
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| Format: | Texto biblioteca |
| Language: | eng |
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Dordrecht : Springer Netherlands : Imprint: Springer,
1996
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| Subjects: | Mathematics., Algebraic geometry., Associative rings., Rings (Algebra)., Category theory (Mathematics)., Homological algebra., Partial differential equations., Elementary particles (Physics)., Quantum field theory., Associative Rings and Algebras., Category Theory, Homological Algebra., Algebraic Geometry., Partial Differential Equations., Elementary Particles, Quantum Field Theory., |
| Online Access: | http://dx.doi.org/10.1007/978-94-015-8759-4 |
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KOHA-OAI-TEST:1939752018-07-30T23:19:04ZZariskian Filtrations [electronic resource] / Huishi, Li. author. Oystaeyen, Freddy van. author. SpringerLink (Online service) textDordrecht : Springer Netherlands : Imprint: Springer,1996.engIn Commutative Algebra certain /-adic filtrations of Noetherian rings, i.e. the so-called Zariski rings, are at the basis of singularity theory. Apart from that it is mainly in the context of Homological Algebra that filtered rings and the associated graded rings are being studied not in the least because of the importance of double complexes and their spectral sequences. Where non-commutative algebra is concerned, applications of the theory of filtrations were mainly restricted to the study of enveloping algebras of Lie algebras and, more extensively even, to the study of rings of differential operators. It is clear that the operation of completion at a filtration has an algebraic genotype but a topological fenotype and it is exactly the symbiosis of Algebra and Topology that works so well in the commutative case, e.g. ideles and adeles in number theory or the theory of local fields, Puisseux series etc, .... . In Non commutative algebra the bridge between Algebra and Analysis is much more narrow and it seems that many analytic techniques of the non-commutative kind are still to be developed. Nevertheless there is the magnificent example of the analytic theory of rings of differential operators and 1J-modules a la Kashiwara-Shapira.I Filtered Rings and Modules -- II Zariskian Filtrations -- III Auslander Regular Filtered (Graded) Rings -- IV Microlocalization of Filtered Rings and Modules, Quantum Sections and Gauge Algebras -- References.In Commutative Algebra certain /-adic filtrations of Noetherian rings, i.e. the so-called Zariski rings, are at the basis of singularity theory. Apart from that it is mainly in the context of Homological Algebra that filtered rings and the associated graded rings are being studied not in the least because of the importance of double complexes and their spectral sequences. Where non-commutative algebra is concerned, applications of the theory of filtrations were mainly restricted to the study of enveloping algebras of Lie algebras and, more extensively even, to the study of rings of differential operators. It is clear that the operation of completion at a filtration has an algebraic genotype but a topological fenotype and it is exactly the symbiosis of Algebra and Topology that works so well in the commutative case, e.g. ideles and adeles in number theory or the theory of local fields, Puisseux series etc, .... . In Non commutative algebra the bridge between Algebra and Analysis is much more narrow and it seems that many analytic techniques of the non-commutative kind are still to be developed. Nevertheless there is the magnificent example of the analytic theory of rings of differential operators and 1J-modules a la Kashiwara-Shapira.Mathematics.Algebraic geometry.Associative rings.Rings (Algebra).Category theory (Mathematics).Homological algebra.Partial differential equations.Elementary particles (Physics).Quantum field theory.Mathematics.Associative Rings and Algebras.Category Theory, Homological Algebra.Algebraic Geometry.Partial Differential Equations.Elementary Particles, Quantum Field Theory.Springer eBookshttp://dx.doi.org/10.1007/978-94-015-8759-4URN:ISBN:9789401587594 |
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biblioteca |
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America del Norte |
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| language |
eng |
| topic |
Mathematics. Algebraic geometry. Associative rings. Rings (Algebra). Category theory (Mathematics). Homological algebra. Partial differential equations. Elementary particles (Physics). Quantum field theory. Mathematics. Associative Rings and Algebras. Category Theory, Homological Algebra. Algebraic Geometry. Partial Differential Equations. Elementary Particles, Quantum Field Theory. Mathematics. Algebraic geometry. Associative rings. Rings (Algebra). Category theory (Mathematics). Homological algebra. Partial differential equations. Elementary particles (Physics). Quantum field theory. Mathematics. Associative Rings and Algebras. Category Theory, Homological Algebra. Algebraic Geometry. Partial Differential Equations. Elementary Particles, Quantum Field Theory. |
| spellingShingle |
Mathematics. Algebraic geometry. Associative rings. Rings (Algebra). Category theory (Mathematics). Homological algebra. Partial differential equations. Elementary particles (Physics). Quantum field theory. Mathematics. Associative Rings and Algebras. Category Theory, Homological Algebra. Algebraic Geometry. Partial Differential Equations. Elementary Particles, Quantum Field Theory. Mathematics. Algebraic geometry. Associative rings. Rings (Algebra). Category theory (Mathematics). Homological algebra. Partial differential equations. Elementary particles (Physics). Quantum field theory. Mathematics. Associative Rings and Algebras. Category Theory, Homological Algebra. Algebraic Geometry. Partial Differential Equations. Elementary Particles, Quantum Field Theory. Huishi, Li. author. Oystaeyen, Freddy van. author. SpringerLink (Online service) Zariskian Filtrations [electronic resource] / |
| description |
In Commutative Algebra certain /-adic filtrations of Noetherian rings, i.e. the so-called Zariski rings, are at the basis of singularity theory. Apart from that it is mainly in the context of Homological Algebra that filtered rings and the associated graded rings are being studied not in the least because of the importance of double complexes and their spectral sequences. Where non-commutative algebra is concerned, applications of the theory of filtrations were mainly restricted to the study of enveloping algebras of Lie algebras and, more extensively even, to the study of rings of differential operators. It is clear that the operation of completion at a filtration has an algebraic genotype but a topological fenotype and it is exactly the symbiosis of Algebra and Topology that works so well in the commutative case, e.g. ideles and adeles in number theory or the theory of local fields, Puisseux series etc, .... . In Non commutative algebra the bridge between Algebra and Analysis is much more narrow and it seems that many analytic techniques of the non-commutative kind are still to be developed. Nevertheless there is the magnificent example of the analytic theory of rings of differential operators and 1J-modules a la Kashiwara-Shapira. |
| format |
Texto |
| topic_facet |
Mathematics. Algebraic geometry. Associative rings. Rings (Algebra). Category theory (Mathematics). Homological algebra. Partial differential equations. Elementary particles (Physics). Quantum field theory. Mathematics. Associative Rings and Algebras. Category Theory, Homological Algebra. Algebraic Geometry. Partial Differential Equations. Elementary Particles, Quantum Field Theory. |
| author |
Huishi, Li. author. Oystaeyen, Freddy van. author. SpringerLink (Online service) |
| author_facet |
Huishi, Li. author. Oystaeyen, Freddy van. author. SpringerLink (Online service) |
| author_sort |
Huishi, Li. author. |
| title |
Zariskian Filtrations [electronic resource] / |
| title_short |
Zariskian Filtrations [electronic resource] / |
| title_full |
Zariskian Filtrations [electronic resource] / |
| title_fullStr |
Zariskian Filtrations [electronic resource] / |
| title_full_unstemmed |
Zariskian Filtrations [electronic resource] / |
| title_sort |
zariskian filtrations [electronic resource] / |
| publisher |
Dordrecht : Springer Netherlands : Imprint: Springer, |
| publishDate |
1996 |
| url |
http://dx.doi.org/10.1007/978-94-015-8759-4 |
| work_keys_str_mv |
AT huishiliauthor zariskianfiltrationselectronicresource AT oystaeyenfreddyvanauthor zariskianfiltrationselectronicresource AT springerlinkonlineservice zariskianfiltrationselectronicresource |
| _version_ |
1756266542005223424 |