04884nam 22007095 450 991091378920332120241201115308.09789819770632981977063710.1007/978-981-97-7063-2(CKB)36812827900041(MiAaPQ)EBC31810906(Au-PeEL)EBL31810906(DE-He213)978-981-97-7063-2(EXLCZ)993681282790004120241201d2024 u| 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierAdvances in Atomic Molecular Collisions /edited by Lokesh C. Tribedi1st ed. 2024.Singapore :Springer Nature Singapore :Imprint: Springer,2024.1 online resource (286 pages)9789819770625 9819770629 COLTRIMS in Collision Physics -- The Post-Collision Interaction in Ionization by Ion Impact -- Ionization of Water, Ammonia, and Methane by Proton Collision: Experimental and Electronic Configuration Studies -- Fast Ion-Atom Collisions: Electron Spectroscopy of Mixed-State Beams -- EUV Spectroscopy of Highly Charged Ions with an Electron Beam Ion Trap -- On the Dynamics of Fast and Ultrafast Irradiation in Clusters and Molecules -- Inspecting State-Selective Distributions due to Charge Exchange Collisions of Bare Ions with Hydrogen -- Inspecting the Information Quantity in Ion-Hydrogen Electron Capture Process with the Shannon Entropy -- Target Ionization and Electron Loss Processes Induced by Neutral and Charged Hydrogen and Helium Projectiles in Water Molecule -- Classical-Trajectory Time-Dependent Mean-Field Theory for Ion-Molecule Collision Problems -- Perturbed Relativistic Coupled-Cluster Calculations of the Properties of Ar13+ -- Intermolecular Coulombic Decay: Geometric And Electronic Structures of Ionized Water -- Young Type Electron Interference in Molecular Double Slit: A Brief Overview.This book highlights the advances made in the field of atomic and molecular collisions both in the experimental and theoretical fronts. The study of the collision of charged particles with neutral target atoms or molecules started many decades ago. The charged particles mostly include electrons and fast heavy ions. This book discusses basic research in atomic molecular collision physics along with some of the important applications in other branches of physics and peripheral fields, such as plasma physics, radiobiology, astrophysics, nanosciences, antimatter physics, and surface science. The complexity of the target systems led to the need for more sophisticated experimental tools as well as advanced theoretical models. Since the last decade, a major focus has been to investigate the behavior of biomolecules (such as nucleobases) and water when irradiated with protons and heavy ions due its applications toward hadron therapy for cancer and radiobiology in general. The collisions with polycyclic aromatic hydrocarbons find applications toward astrochemistry that take place in the interstellar medium, solar wind as well as UV plasmonic devices. It has been proposed that the collective excitation in these molecules plays a major role in these applications. This book presents details about the advances made and the challenges faced in both experimental and theoretical front for studying the atomic collisions including these aspects. The book can be used as a reference for researchers, professionals, and also students. The recent advances in the sophisticated experimental tools for various types of experiments as well as the progress in the experimental methodologies are addressed along with the advancement in the theoretical front.AtomsMoleculesSpectrum analysisPhysicsCosmochemistryQuantum statisticsAtomic, Molecular and Chemical PhysicsSpectroscopyUltracold GasesApplied and Technical PhysicsAstrochemistryQuantum Gases and CondensatesAtoms.Molecules.Spectrum analysis.Physics.Cosmochemistry.Quantum statistics.Atomic, Molecular and Chemical Physics.Spectroscopy.Ultracold Gases.Applied and Technical Physics.Astrochemistry.Quantum Gases and Condensates.539Tribedi Lokesh C1777418MiAaPQMiAaPQMiAaPQBOOK9910913789203321Advances in Atomic Molecular Collisions4298213UNINA02836nam 2200577 a 450 991095438350332120200520144314.01-04-022000-20-429-18953-21-4665-1511-210.1201/b15165(CKB)2670000000394981(DLC)2013019702(StDuBDS)AH25032849(SSID)ssj0000911421(PQKBManifestationID)11495603(PQKBTitleCode)TC0000911421(PQKBWorkID)10992873(PQKB)11787415(OCoLC)857078770(MiAaPQ)EBC1316398(OCoLC)852899175(EXLCZ)99267000000039498120130619d2014 uy 0engur|||||||||||txtccrAsymptotic analysis and perturbation theory /William Paulsen1st ed.Boca Raton Taylor & Francis20141 online resource (xxiii, 526 pages )illustrations"A CRC title."1-4665-1512-0 Includes bibliographical references.1. Introduction to asymptotics -- 2. Asymptotics of integrals -- 3. Speeding up convergence -- 4. Differential equations -- 5. Asymptotic series solutions for differential equations -- 6. Difference equations -- 7. Perturbation theory -- 8. WKBJ theory -- 9. Multiple-scale analysis.Beneficial to both beginning students and researchers, Asymptotic Analysis and Perturbation Theory immediately introduces asymptotic notation and then applies this tool to familiar problems, including limits, inverse functions, and integrals. Suitable for those who have completed the standard calculus sequence, the book assumes no prior knowledge of differential equations. It explains the exact solution of only the simplest differential equations, such as first-order linear and separable equations. With varying levels of problems in each section, this self-contained text makes the difficult subject of asymptotics easy to comprehend. Along the way, it explores the properties of some important functions in applied mathematics. Although the book emphasizes problem solving, some proofs are scattered throughout to give readers a justification for the methods used.Perturbation (Mathematics)TextbooksDifferential equationsAsymptotic theoryTextbooksPerturbation (Mathematics)Differential equationsAsymptotic theory515/.392Paulsen William1829138MiAaPQMiAaPQMiAaPQBOOK9910954383503321Asymptotic analysis and perturbation theory4398315UNINA