LEADER 01069nam0-22003251i-450- 001 990007086380403321 005 20020529 035 $a000708638 035 $aFED01000708638 035 $a(Aleph)000708638FED01 035 $a000708638 100 $a20020529d1895----km-y0itay50------ba 101 0 $ager 102 $aDE 105 $ay-------001yy 200 1 $aLehrbuch der griechischen Rechtsalterthümer$fvon Karl Friedrich Hermann 205 $a4. verm. und verb. Aufl.$fnach der zweiten, von Karl Bernhard Stark besorgten Auflage umgearbeitet und herausgegeben von Th. Thalheim 210 $aFreiburg$aLeipzig$c[Mohr]$d1895 215 $aX, 183 p.$d24 cm 225 1 $aLehrbuch der griechischen Antiquitäten$v2.1 700 1$aHermann,$bKarl Friedrich$0206344 702 1$aStark,$bK.B. 702 1$aThalheim,$bTheodor$f<1847-1921> 801 0$aIT$bUNINA$gRICA$2UNIMARC 901 $aBK 912 $a990007086380403321 952 $aIV L 6$b675$fFGBC 959 $aFGBC 996 $aLehrbuch der griechischen Rechtsalterthümer$9706679 997 $aUNINA LEADER 02787nam 2200649 a 450 001 9910789083503321 005 20200520144314.0 010 $a1-282-48618-7 010 $a9786612486180 010 $a90-04-21293-0 024 7 $a10.1163/ej.9781906876098.i-382 035 $a(CKB)3390000000012769 035 $a(EBL)772015 035 $a(OCoLC)753480475 035 $a(SSID)ssj0000440994 035 $a(PQKBManifestationID)11271065 035 $a(PQKBTitleCode)TC0000440994 035 $a(PQKBWorkID)10492561 035 $a(PQKB)10433917 035 $a(MiAaPQ)EBC772015 035 $a(OCoLC)436268209 035 $a(nllekb)BRILL9789004212930 035 $a(Au-PeEL)EBL772015 035 $a(CaPaEBR)ebr10497415 035 $a(CaONFJC)MIL248618 035 $a(PPN)174397038 035 $a(EXLCZ)993390000000012769 100 $a20111028d2009 uy 0 101 0 $aeng 135 $aur|n|---||||| 181 $ctxt 182 $cc 183 $acr 200 10$aPopulation, family and society in pre-modern Japan$b[electronic resource] $ecollected papers of Akira Hayami 210 $aFolkestone, Kent, U.K. $cGlobal Oriental$d2009 215 $a1 online resource (408 p.) 225 1 $aThe collected papers of twentieth-century Japanese writers on Japan ;$vv. 4 300 $aDescription based upon print version of record. 311 $a1-906876-09-6 320 $aIncludes bibliographical references and index. 327 $apt. 1. Tokugawa Japan -- pt. 2. Demography through the telescope -- pt. 3. Demography through the microscope -- pt. 4. Family and household -- pt. 5. Epilogue. 330 $aDoyen of demography studies in Japan at the University of Tokyo, this collection of Akira Hayami?s writings in English brings together for the first time an invaluable resource of comparative primary data on the demographic history of Japan. Containing twenty key essays, the volume is divided into five parts: Tokugawa Japan, Demography through Telescope, Demography through Microscope, Family and Household, Afterwards. It begins with Philip II of Spain and Toyotomi Hideyoshi in the sixteenth century and concludes with Koji Sugi and the emergence of modern population studies in the twentieth century. 410 0$aCollected papers of twentieth century Japanese writers on Japan ;$vv. 4. 606 $aFamilies$zJapan 607 $aJapan$xPopulation$xHistory 607 $aJapan$xSocial conditions 615 0$aFamilies 676 $a304.60952 676 $a306.850952 700 $aHayami$b Akira$0251073 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910789083503321 996 $aPopulation, family and society in pre-modern Japan$93686825 997 $aUNINA LEADER 14110nam 22007455 450 001 9910416145903321 005 20251230064342.0 010 $a3-319-91017-5 024 7 $a10.1007/978-3-319-91017-8 035 $a(CKB)4100000007823492 035 $a(MiAaPQ)EBC5744621 035 $a(DE-He213)978-3-319-91017-8 035 $a(MiAaPQ)EBC6709038 035 $a(Au-PeEL)EBL6709038 035 $a(OCoLC)1091234997 035 $a(PPN)235670529 035 $a(MiAaPQ)EBC29314153 035 $a(EXLCZ)994100000007823492 100 $a20190402d2019 u| 0 101 0 $aeng 135 $aurcnu|||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$a31st International Symposium on Shock Waves 2 $eApplications /$fedited by Akihiro Sasoh, Toshiyuki Aoki, Masahide Katayama 205 $a1st ed. 2019. 210 1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2019. 215 $a1 online resource (1,148 pages) 311 08$a3-319-91016-7 320 $aIncludes bibliographical references. 327 $aChapter1.Strength and Frequency of Underwater Shock Waves Related to Sterilization Effects on a Marine Bacterium -- Chapter2.Effects of Liquid Impurity on Laser-Induced Gas Breakdown in Quiescent Gas: Experimental and Numerical Investigations -- Chapter3.Air Blast from a Structural Reactive Material Solid -- Chapter5.Experimental study on Configuration Effects of Supersonic Projectiles in Transitional Ballistic Regimes -- Chapter6.Non-Ideal Blast Waves from Particle-Laden Explosives -- Chapter7.Attenuation of Blast Wave in a Duct with Expansion Region (Effects of configuration, porous panel, and acoustic material) -- Chapter8.Enhancement of Deflagration-to-Detonation Transition Process with Energetic Solid Particle -- Chapter9.Large Scale Computation of Direct Initiation of Cylindrical Detonations -- Chapter10.Numerical Study on a Cycle of Liquid Pulse Detonation Engines -- Chapter11.Experimental investigate on the flame-shock wave interaction and pressure oscillation in a confined combustion chamber -- Chapter12.The Influence of Spatial Heterogeneity in Energetic Material on Non-ideal Detonation Propagation -- Chapter13.Detonation Experiment Research of Gaseous Mixtures with Suspended Metal Particles -- Chapter14.Large Eddy Simulation of Mixing Characteristic in the Cold Rotating-Detonation Chamber -- Chapter15.Research on the Continuous Rotating Detonation Wave in a Hollow Chamber with Laval Nozzle -- Chapter16.Experimental Study on a Long Duration Operation of a Rotating Detonation Engine -- Chapter17.Decaying modes of propagation of spinning detonation and flame front in narrow channel -- Chapter18.Measurement of gaseous fuel concentration in rotating detonation engines -- Chapter19.Investigation of High-Frequency Pulse Detonation Cycle with Fuel Phase Transition -- Chapter20.Simulations of Hydrogen Detonation in Vibrational Non-equilibrium -- Chapter21.Aerodynamic Force Measurement in a Large-Scale Shock Tunnel -- Chapter22.Trial Implementation of TiN Surface Coating for a Main Piston Towards Reducing the Opening Time for a Diaphragmless Driver Section -- Chapter23.Aerodynamic Force Measurement Techniques in JF12 Shock Tunnel -- Chapter24.Optimising the X3R Reflected Shock Tunnel Free-Piston Driver for Long Duration Test Times -- Chapter25.Development and Analysis of an Apollo Earth Re-entry Condition with Representative Post-shock Reynolds Number in the X2 Expansion Tunnel -- Chapter26.Liquid-Coupled Dual Piston Driver for Small-Scale Shock Tubes -- Chapter27.Initial testing of a 2m Mach-10 free piston Shock tunnel at CAAA -- Chapter28.CFD Evaluation and Experiment test of the Running time of the Hypersonic Ludwieg Tube Quiet Wind Tunnel -- Chapter29.Development and Performance Study of Shock Tube with Extended Test-times for Materials Research -- Chapter30.Measurement of Temperature Field around Spiked Bodies at Hypersonic Mach Numbers -- Chapter31.Three-dimensional Laser Interferometric CT density measurement of unsteady flow field around a cylinder induced by discharged shock wave from a cylindrical nozzle -- Chapter32.Curved shock wave propagation in environmental stratosphere by laser ablation -- Chapter33.Hypervelocity tests with a detonation driven expansion tube -- Chapter34.Experiments in HEG related to sonic line and shock stand-off distance on capsule shapes -- Chapter35.Catalytic Recombination Characteristics of Atomic Oxygen on Material Surfaces by Optical Emission Spectroscopy -- Chapter36.Influence of Dual Ignition on Test Conditions of a High Enthalpy Shock Tunnel -- Chapter37.Ablation Measurements in A Low Density Heat Shield Using Ablation Sensor Unit -- Chapter38.The Development of High Enthalpy Reentry Conditions in the X3 Expansion Tube -- Chapter39.Prediction of Intensity Profiles behind a Shock Wave Travelling in Air at Speeds Exceeding 12 km/s -- Chapter40.Revisiting temperature measurements at the focus of spherically converging shocks in argon -- Chapter41.Influence of Matrix Resin on Impact Resistance of CFRP by a SmallSphere -- Chapter42.Improvement of Impact Resistance of Ceramics by using Resin-based Materials -- Chapter43.Measurement of Plasma Formed by High-speed Impact to Estimate Temperature at Impact Point -- Chapter44.Application of Riemann Solver for Compressible and Non-Expanding Fluid to Impact on Regolith -- Chapter45.Mathematical modeling of the impact of high-speed metallic plates -- Chapter46.Study of Shock Impact Pressure Amplification and Attenuation of Acoustic Waves in E-Glass Material -- Chapter47.Reconstruction of Recoilless Weapon Blast Environments Using High-fidelity Simulations -- Chapter48.Contribution of Cavitation Generation to Shock Wave Sterilization Effects in a Narrow Water Chamber -- Chapter49.Shockwaves confer immunity against infections in mice -- Chapter50.On the relation between the shock wave thickness in bio-materials and the threshold for blast induced neuro-trauma -- Chapter51.Development of a miniaturized focused shock wave generator for medical application -- Chapter52.Intracellular Ca2+ Increase Evoked by Single Acoustic Pulses -- Chapter53.A new device for crossing chronic total occlusions -- Chapter54.Medical application of shock waves: Developing the treatment application and understanding of injury -- Chapter55.Towards non-invasive insulin injection via control of the electrical breakdown in liquid -- Chapter56.Current Trend in Cell Membrane Manipulation by Ultrasound and Underwater Shock Wave -- Chapter57.Analysis of Deformation Process of a Bubble in an Elastic Capsule by Shock Waves and Their Medical and Biological Applications -- Chapter58.Shockwaves can cure biofilm infections in-vivo in combination with antibiotics -- Chapter60.Simulation of shock-bubbles interaction using a four-equation homogeneous model -- Chapter61.A Study of Dispersion, Vaporization, and Combustion of Burnable Liquids Surrounding Charges -- Chapter62.Multi-scale simulation of the interaction of a shock wave and a cloud of particles -- Chapter63.Surface Jetting Induced by Explosion in Liquid below an Immersed Bubble -- Chapter64.Generation Frequency of Rebound Shock Waves from Bubble Collapses in Cavitation Jet -- Chapter65.Experimental Study on the Influence of Underwater Explosion Depth on the Disintegration of Thin Resin Plate Attached Microbubbles -- Chapter66.Numerical Study of the Flow Separation in a Rocket Nozzle -- Chapter67.Hybrid RANS/LES simulation of shock-induced separated flow in truncated ideal contour nozzle -- Chapter68.Experimental Study of TICTOP Nozzles -- Chapter69.Three-Dimensional Instability of Shock-Wave/Boundary- Layer Interaction for Rocket Engine Nozzle Applications -- Chapter70.Shock interactions in Thrust Optimized Parabolic (TOP) Nozzles during Start-Up and Shut Down -- Chapter71.Shock System Deformation in High Mach Number Rocket Nozzles -- Chapter72.Interaction of Droplets with Incident Shock Waves -- Chapter73.A compact finite volume method for computing shock waves on hybrid grids -- Chapter74.Numerical Modelling of the Effects ofSurface Roughness on Blunt Body Heat Transfer. -- Chapter75.Numerical study of shock propagation in liquid/gas media -- Chapter76.CFD models of shocks and flow fields associated with decelerating spheres in terms of flow history and inertial effects -- Chapter77.Conjugate Heat Transfer Analysis in a Hypersonic Flow -- Chapter78.Laser-induced shock waves in micro tubes -- Chapter79.Study of MHD Effects in the High-Enthalpy Shock Tunnel G?ttingen (HEG) using a 30T Pulsed Magnet System -- Chapter80.An Electrodynamic Aerobraking Experiment in a Rarefied Arc-Heated Flow -- Chapter81.Blast Wave Propagation Affected by Ground Characteristics -- Chapter82.Multiple reflected shock wave in closed volume with granular screen -- Chapter83.Some aspects of the numerical modeling of shock wave ? dense particles bed interaction using two-fluid approach -- Chapter84.To the complex approach to the numerical investigation of the shock wave - dense particles bed interaction -- Chapter85.Numerical Study on Shock Wave Reflection over a Double Wedge in Dusty Gas -- Chapter86.Shock and Blast Wave Interaction With Hard Sand Pan -- Chapter87.Long time history of unsteady drag on shock accelerated micro-particles -- Chapter88.Shock Focusing Effect upon Interaction of a Shock with Low-Density Dust Cloud -- Chapter89.Shock-induced motion of a spherical particle floating in air -- Chapter90.Exploring the capability of a new shock tube facility to investigate shock interaction with inert particle columns -- Chapter91.MITIGATION OF BLAST IN A WATER MIST -- Chapter92.Shock wave propagation through a series of perforated plates -- Chapter93.Experimental Investigation of Strong Shock Heated Gases Interacting with Materials in Powder form -- Chapter94.Selective shock-refraction properties in non-ideal fluids -- Chapter95.A Numerical Investigation of Oblique Shock Waves in Non-Ideal Compressible-Fluid Flows -- Chapter96.Assessment of real gas effects on SCO2 flows with shock waves -- Chapter97.Structure of shock waves in noble gases under high density conditions. -- Chapter98.Mach 4 Shock Train Structures in Rectangular Ducts -- Chapter99.Control of Shock Trains within Supersonic Intakes through the addition of Cavities -- Chapter100.Experiments in Supersonic Gaseous Ejector using 2D PIV Technique -- Chapter101.Numerical analysis of surface heat flux in a forward facing cavity -- Chapter102.Large Eddy Simulation of Expansion Wave Diffraction -- Chapter103.In-pipe aerodynamic characteristics of a projectile in comparison with free-flight for transonic Mach numbers between 0.5 and 1.5 -- Chapter104.Experimental Investigation of Shock Wave Characteristics in Small Scale Circular Channel -- Chapter105.Shock Oscillation Studies with Varying Stagnation Pressure in a Supersonic Diffuser -- Chapter106.Measurement of shock wave attenuation in microchannels -- Chapter107.Surface jets produced from an underwater shock wave --. 330 $aThis is the second volume of a two volume set which presents the results of the 31st International Symposium on Shock Waves (ISSW31), held in Nagoya, Japan in 2017. It was organized with support from the International Shock Wave Institute (ISWI), Shock Wave Research Society of Japan, School of Engineering of Nagoya University, and other societies, organizations, governments and industry. The ISSW31 focused on the following areas: Blast waves, chemical reacting flows, chemical kinetics, detonation and combustion, ignition, facilities, diagnostics, flow visualization, spectroscopy, numerical methods, shock waves in rarefied flows, shock waves in dense gases, shock waves in liquids, shock waves in solids, impact and compaction, supersonic jet, multiphase flow, plasmas, magnetohyrdrodynamics, propulsion, shock waves in internal flows, pseudo-shock wave and shock train, nozzle flow, re-entry gasdynamics, shock waves in space, Richtmyer-Meshkov instability, shock/boundary layer interaction,shock/vortex interaction, shock wave reflection/interaction, shock wave interaction with dusty media, shock wave interaction with granular media, shock wave interaction with porous media, shock wave interaction with obstacles, supersonic and hypersonic flows, sonic boom, shock wave focusing, safety against shock loading, shock waves for material processing, shock-like phenomena, and shock wave education. These proceedings contain the papers presented at the symposium and serve as a reference for the participants of the ISSW 31 and individuals interested in these fields. Chapter ?Effects of Liquid Impurity on Laser-Induced Gas Breakdown in Quiescent Gas: Experimental and Numerical Investigations? is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com. 606 $aAerospace engineering 606 $aAstronautics 606 $aContinuum mechanics 606 $aFluid mechanics 606 $aPhysical chemistry 606 $aComputational intelligence 606 $aAerospace Technology and Astronautics 606 $aContinuum Mechanics 606 $aEngineering Fluid Dynamics 606 $aPhysical Chemistry 606 $aComputational Intelligence 615 0$aAerospace engineering. 615 0$aAstronautics. 615 0$aContinuum mechanics. 615 0$aFluid mechanics. 615 0$aPhysical chemistry. 615 0$aComputational intelligence. 615 14$aAerospace Technology and Astronautics. 615 24$aContinuum Mechanics. 615 24$aEngineering Fluid Dynamics. 615 24$aPhysical Chemistry. 615 24$aComputational Intelligence. 676 $a531.1133 702 $aSasoh$b A.$f1960- 702 $aAoki$b Toshiyuki 702 $aKatayama$b Masahide 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910416145903321 996 $a31st International Symposium on Shock Waves 2$94522894 997 $aUNINA