نتایج جستجو برای: ito differential formula

تعداد نتایج: 378682  

2004
DESMOND J. HIGHAM PETER E. KLOEDEN

Abstract. A class of implicit methods is introduced for Ito stochastic differential equations with Poisson-driven jumps. A convergence proof shows that these implicit methods share the same strong finite-time convergence rate as the explicit Euler–Maruyama scheme. A mean-square linear stability analysis shows that implicitness offers benefits, and a natural analogue of mean-square A-stability i...

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2013
Soghra Safaverdi

The Green-Kubo formula for linear response coefficients gets modified when dealing with nonequilibrium dynamics. In particular negative differential conductivities are allowed to exist away from equilibrium. We give a unifying framework for such negative differential response in terms of the frenetic contribution in the nonequilibrium formula. It corresponds to a negative dependence of the esca...

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Journal: :SIAM J. Control and Optimization 2010
Marco Fuhrman Federica Masiero Gianmario Tessitore

We consider an Ito stochastic differential equation with delay, driven by brownian motion, whose solution, by an appropriate reformulation, defines a Markov process X with values in a space of continuous functions C, with generator L. We then consider a backward stochastic differential equation depending on X , with unknown processes (Y, Z), and we study properties of the resulting system, in p...

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2013
B. Abelev J. Adam D. Adamová A. M. Adare M. M. Aggarwal G. Aglieri Rinella M. Agnello A. G. Agocs A. Agostinelli Z. Ahammed N. Ahmad A. Ahmad Masoodi I. Ahmed S. A. Ahn S. U. Ahn I. Aimo S. Aiola M. Ajaz A. Akindinov D. Aleksandrov B. Alessandro D. Alexandre A. Alici A. Alkin J. Alme T. Alt V. Altini S. Altinpinar I. Altsybeev C. Alves Garcia Prado C. Andrei A. Andronic V. Anguelov J. Anielski T. Antičić F. Antinori P. Antonioli L. Aphecetche H. Appelshäuser N. Arbor S. Arcelli N. Armesto R. Arnaldi T. Aronsson I. C. Arsene M. Arslandok A. Augustinus R. Averbeck T. C. Awes J. Äystö M. D. Azmi M. Bach A. Badalà Y. W. Baek R. Bailhache R. Bala A. Baldisseri F. Baltasar Dos Santos Pedrosa J. Bán R. C. Baral R. Barbera F. Barile G. G. Barnaföldi L. S. Barnby V. Barret J. Bartke M. Basile N. Bastid S. Basu B. Bathen G. Batigne B. Batyunya P. C. Batzing C. Baumann I. G. Bearden H. Beck C. Bedda N. K. Behera I. Belikov F. Bellini R. Bellwied E. Belmont-Moreno G. Bencedi S. Beole I. Berceanu A. Bercuci Y. Berdnikov D. Berenyi A. A. E. Bergognon R. A. Bertens D. Berzano L. Betev A. Bhasin A. K. Bhati J. Bhom L. Bianchi N. Bianchi C. Bianchin J. Bielčík J. Bielčíková A. Bilandzic S. Bjelogrlic F. Blanco F. Blanco D. Blau C. Blume F. Bock A. Bogdanov H. Bøggild M. Bogolyubsky L. Boldizsár M. Bombara J. Book H. Borel A. Borissov J. Bornschein M. Botje E. Botta S. Böttger E. Braidot P. Braun-Munzinger M. Bregant T. Breitner T. A. Broker T. A. Browning M. Broz R. Brun E. Bruna G. E. Bruno D. Budnikov H. Buesching S. Bufalino P. Buncic O. Busch Z. Buthelezi D. Caffarri X. Cai H. Caines A. Caliva E. Calvo Villar P. Camerini V. Canoa Roman G. Cara Romeo F. Carena W. Carena F. Carminati A. Casanova Díaz J. Castillo Castellanos E. A. R. Casula V. Catanescu C. Cavicchioli C. Ceballos Sanchez J. Cepila P. Cerello B. Chang S. Chapeland J. L. Charvet S. Chattopadhyay S. Chattopadhyay M. Cherney C. Cheshkov B. Cheynis V. Chibante Barroso D. D. Chinellato P. Chochula M. Chojnacki S. Choudhury P. Christakoglou C. H. Christensen P. Christiansen T. Chujo S. U. Chung C. Cicalo L. Cifarelli F. Cindolo J. Cleymans F. Colamaria D. Colella A. Collu M. Colocci G. Conesa Balbastre Z. Conesa del Valle M. E. Connors G. Contin J. G. Contreras T. M. Cormier Y. Corrales Morales P. Cortese I. Cortés Maldonado M. R. Cosentino F. Costa P. Crochet R. Cruz Albino E. Cuautle L. Cunqueiro A. Dainese R. Dang A. Danu K. Das D. Das I. Das A. Dash S. Dash S. De H. Delagrange A. Deloff E. Dénes A. Deppman G. O. V. de Barros A. De Caro G. de Cataldo J. de Cuveland A. De Falco D. De Gruttola N. De Marco S. De Pasquale R. de Rooij M. A. Diaz Corchero T. Dietel R. Divià D. Di Bari C. Di Giglio S. Di Liberto A. Di Mauro P. Di Nezza Ø. Djuvsland A. Dobrin T. Dobrowolski B. Dönigus O. Dordic A. K. Dubey A. Dubla L. Ducroux P. Dupieux A. K. Dutta Majumdar G. D Erasmo D. Elia D. Emschermann H. Engel B. Erazmus H. A. Erdal D. Eschweiler B. Espagnon M. Estienne S. Esumi D. Evans S. Evdokimov G. Eyyubova D. Fabris J. Faivre D. Falchieri A. Fantoni M. Fasel D. Fehlker L. Feldkamp D. Felea A. Feliciello G. Feofilov A. Fernández Téllez E. G. Ferreiro A. Ferretti A. Festanti J. Figiel M. A. S. Figueredo S. Filchagin D. Finogeev F. M. Fionda E. M. Fiore E. Floratos M. Floris S. Foertsch P. Foka S. Fokin E. Fragiacomo A. Francescon U. Frankenfeld U. Fuchs C. Furget M. Fusco Girard J. J. Gaardhøje M. Gagliardi A. Gago M. Gallio D. R. Gangadharan P. Ganoti C. Garabatos E. Garcia-Solis C. Gargiulo I. Garishvili J. Gerhard M. Germain A. Gheata M. Gheata B. Ghidini P. Ghosh P. Gianotti P. Giubellino E. Gladysz-Dziadus P. Glässel L. Goerlich R. Gomez P. González-Zamora S. Gorbunov S. Gotovac L. K. Graczykowski R. Grajcarek A. Grelli C. Grigoras A. Grigoras V. Grigoriev A. Grigoryan S. Grigoryan B. Grinyov N. Grion J. F. Grosse-Oetringhaus J.-Y. Grossiord R. Grosso F. Guber R. Guernane B. Guerzoni M. Guilbaud K. Gulbrandsen H. Gulkanyan T. Gunji A. Gupta R. Gupta K. H. Khan R. Haake Ø. Haaland C. Hadjidakis M. Haiduc H. Hamagaki G. Hamar L. D. Hanratty A. Hansen J. W. Harris A. Harton D. Hatzifotiadou S. Hayashi A. Hayrapetyan S. T. Heckel M. Heide H. Helstrup A. Herghelegiu G. Herrera Corral N. Herrmann B. A. Hess K. F. Hetland B. Hicks B. Hippolyte Y. Hori P. Hristov I. Hřivnáčová M. Huang T. J. Humanic D. Hutter D. S. Hwang R. Ichou R. Ilkaev I. Ilkiv M. Inaba E. Incani G. M. Innocenti C. Ionita M. Ippolitov M. Irfan V. Ivanov M. Ivanov O. Ivanytskyi A. Jachołkowski C. Jahnke H. J. Jang M. A. Janik P. H. S. Y. Jayarathna S. Jena R. T. Jimenez Bustamante P. G. Jones H. Jung A. Jusko S. Kalcher P. Kaliňák T. Kalliokoski A. Kalweit J. H. Kang V. Kaplin S. Kar A. Karasu Uysal O. Karavichev T. Karavicheva E. Karpechev A. Kazantsev U. Kebschull R. Keidel B. Ketzer S. A. Khan M. M. Khan P. Khan A. Khanzadeev Y. Kharlov B. Kileng S. Kim D. W. Kim D. J. Kim B. Kim T. Kim M. Kim M. Kim J. S. Kim S. Kirsch I. Kisel S. Kiselev A. Kisiel G. Kiss J. L. Klay J. Klein C. Klein-Bösing A. Kluge M. L. Knichel A. G. Knospe M. K. Köhler T. Kollegger A. Kolojvari V. Kondratiev N. Kondratyeva A. Konevskikh V. Kovalenko M. Kowalski S. Kox G. Koyithatta Meethaleveedu J. Kral I. Králik F. Kramer A. Kravčáková M. Krelina M. Kretz M. Krivda F. Krizek M. Krus E. Kryshen M. Krzewicki V. Kucera Y. Kucheriaev T. Kugathasan C. Kuhn P. G. Kuijer I. Kulakov J. Kumar P. Kurashvili A. B. Kurepin A. Kurepin A. Kuryakin S. Kushpil V. Kushpil M. J. Kweon Y. Kwon P. Ladrón de Guevara C. Lagana Fernandes I. Lakomov R. Langoy C. Lara A. Lardeux S. L. La Pointe P. La Rocca R. Lea M. Lechman S. C. Lee G. R. Lee I. Legrand J. Lehnert R. C. Lemmon M. Lenhardt V. Lenti I. León Monzón P. Lévai S. Li J. Lien R. Lietava S. Lindal V. Lindenstruth C. Lippmann M. A. Lisa H. M. Ljunggren D. F. Lodato P. I. Loenne V. R. Loggins V. Loginov D. Lohner C. Loizides K. K. Loo X. Lopez E. López Torres G. Løvhøiden X.-G. Lu P. Luettig M. Lunardon J. Luo G. Luparello C. Luzzi P. M. Jacobs R. Ma

Differential cross sections of charged particles in inelastic pp collisions as a function of pT have been measured at [Formula: see text] at the LHC. The pT spectra are compared to NLO-pQCD calculations. Though the differential cross section for an individual [Formula: see text] cannot be described by NLO-pQCD, the relative increase of cross section with [Formula: see text] is in agreement with...

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2015
Atsushi Muramatsu Kiyoshi Kanie Takafumi Sasaki Masafumi Nakaya

Generally, indium-tin-oxides (ITO) thin film is prepared by the sputtering process with ITO target, but only 20 % of ITO yielded from the target is deposited on the substrate. Namely, about 80 % ITO is exhausted by the deposition elsewhere far from the substrate. The recycling process of indium is limited so that ca. 20 % ITO of the starting material is lost without any recovery. Even if the re...

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2015
Christian H Ziener Felix T Kurz Lukas R Buschle Thomas Kampf

The cylindrical Bessel differential equation and the spherical Bessel differential equation in the interval [Formula: see text] with Neumann boundary conditions are considered. The eigenfunctions are linear combinations of the Bessel function [Formula: see text] or linear combinations of the spherical Bessel functions [Formula: see text]. The orthogonality relations with analytical expressions ...

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2015
Christoph Pflügler Manuel Wiesche Helmut Krcmar

Studies on information technology outsourcing (ITO) have shown different results for the influence of prior interaction and contract type on the project performance of the ITO vendor. The ITO market maturity could provide an explanation for these differences. However, it is not clear how to separate the ITO market into different maturity phases to gain insight into any possible effect maturity ...

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2008
Evelina Shamarova

We prove a version of the Stokes formula for differential forms on locally convex spaces announced in [10]. The main tool used for proving this formula is the surface layer theorem proved in the paper [6] by the author. Moreover, for differential forms of a Sobolev-type class relative to a differentiable measure [1], we compute the operator adjoint to the exterior differential in terms of stand...

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2010
Yong Wang Liqiang Lu Fengdan Wu

This paper reports two new indium tin oxide (ITO)-based nanostructures, namely ITO@carbon core-shell nanowire and jagged ITO nanowire. The ITO@carbon core-shell nanowires (~50 nm in diameter, 1-5 μm in length,) were prepared by a chemical vapor deposition process from commercial ITO nanoparticles. A carbon overlayer (~5-10 in thickness) was observed around ITO nanowire core, which was in situ f...

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Journal: :Optics express 2014
Wei-Chih Lai Chih-Nan Lin Yi-Chun Lai Peichen Yu Gou Chung Chi Shoou-Jinn Chang

We have demonstrated a gallium nitride (GaN)-based green light-emitting diode (LED) with graphene/indium tin oxide (ITO) transparent contact. The ohmic characteristic of the p-GaN and graphene/ITO contact could be preformed by annealing at 500 °C for 5 min. The specific contact resistance of p-GaN/graphene/ITO (3.72E-3 Ω·cm²) is one order less than that of p-GaN/ITO. In addition, the 20-mA forw...

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