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LEE, SANG JOON(이상준)

Department: Dept of Mechanical Enginrg(기계공학과)

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FLOW:34||PIV:20||VELOCITY:11||WAKE:11||VELOCIMETRY:10||Xray imaging:10||PARTICLE IMAGE VELOCIMETRY:9||atmospheric boundary layer:8||TRANSPORT:8||WATER:8||MOTION:7||INVIVO:7||flow control:7||free surface:6||BLOODFLOW:6||porosity:6||flow visualization:6||microPIV:6||drag reduction:6||tip vortex:6||GAS:6||MEMBRANE:5||VISUALIZATION:5||ATMOSPHERIC BOUNDARYLAYER:5||ASPECT RATIO:5||PTV:5||PARTICLES:5||MICROCIRCULATION:5||triangular prism:5||WIND:5||SURFACE:5||SIMULATION:5||surface pressure:5||POISEUILLE FLOW:5||CIRCULARCYLINDER:5||MORPHOLOGY:4||blood flow:4||velocity field:4||xylem vessel:4||DRAG:4||propeller wake:4||ERYTHROCYTE AGGREGATION:4||SURFACES:4||porous fence:4||HEMATOCRIT:4||DRUGDELIVERY:4||MODEL:4||IMPINGEMENT:4||SYSTEM:4||GROWTH:4||Polymer electrolyte fuel cell:4||stereoscopic PIV:4||LOW REYNOLDSNUMBERS:4||TURBULENCE:4||IMAGE VELOCIMETRY:4||VELOCITY PROFILES:4||SPHERICALPARTICLES:4||LEAVES:4||INVITRO:4||SHEARSTRESS:4||wind fence:4||LENGTH:4||BEHAVIOR:3||jet impingement:3||Velocity field:3||RESOLUTION:3||RECONSTRUCTION:3||elliptic cylinder:3||twoframe PIV:3||heat transfer:3||TUNNEL:3||FULLSCALE:3||MIXTURES:3||FILMS:3||AGGREGATION:3||wake sheet:3||LAYER:3||DRAG REDUCTION:3||TURBULENTBOUNDARYLAYER:3||Water management:3||MECHANISM:3||TURBULENT BOUNDARYLAYER:3||free end:3||wind erosion:3||PHASE:3||Blood flow:3||MECHANICS:3||MICROVESSELS:3||FLUIDMECHANICS:3||Hemodynamics:3||DIRECT NUMERICALSIMULATION:3||PULSATILE FLOW:3||SIZE:3||FORCES:3||JET:3||Xray:3||DEFORMABILITY:3||CELLS:3||MECHANISMS:3||RHEOLOGY:3||turbulence intensity:3||VISCOSITY:3||MICROSCOPY:3||HEMODYNAMICS:3||STRESS:3||SOLIDSURFACES:3||TEMPERATURE:3||HVAC:3||INLINE HOLOGRAPHY:3||CELL VELOCITY:3||BLUFFBODY:2||Murray&apos:2||THROMBUS FORMATION:2||DIAMETER:2||PEMFC GDLS:2||AIRFLOW:2||Digital holographic microscopy:2||POLYMERS:2||ECHOGENICITY:2||Flow tracer:2||vacuum cleaner:2||aspect ratio:2||TURBULENT:2||crosscorrelation PIV:2||AIRJET:2||GRAINS:2||DISEASE:2||SPONTANEOUSLY HYPERTENSIVERATS:2||NEUTRONRADIOGRAPHY:2||RIGID SPHERES:2||DISTRIBUTIONS:2||RBC aggregation:2||Gas diffusion layer:2||ANGIOGENESIS:2||Shelter effect:2||MICROCHANNELS:2||Particle image velocimetry:2||translation configuration:2||axialfan:2||PAST:2||PLANE BOUNDARY:2||container crane:2||dynamic PIV:2||microriblet:2||Sphere:2||s law:2||PATTERNS:2||VESSELS:2||ROTATING PROPELLER:2||CONTACT LINE:2||ARTERY:2||TRACKING:2||LEAF:2||SPIRAL LAMINARFLOW:2||STEADY FLOW:2||TRANSITION:2||ECHO PIV:2||Gold nanoparticle:2||Inertial migration:2||SUSPENSIONS:2||Highfrequency ultrasound:2||nearwake:2||BOUNDARYLAYER:2||TURBULENTFLOW:2||PLASMA:2||REDUCTION:2||yaw angle:2||STORM WINDS:2||TERRAIN:2||LIVING CELLS:2||Spiral flow:2||PIV MEASUREMENTS:2||BLOOD:2||MIXER:2||MOTILITY:2||ELECTRONMICROSCOPY:2||phaseaveraging:2||REYNOLDSNUMBERS:2||TRIANGULAR PRISM:2||wind load:2||ROTARY OSCILLATION:2||CONTRAST:2||MicroPIV:2||SHEARFLOW:2||SOLIDIFICATION:2||DYNAMICS:2||INSITU OBSERVATION:2||FLUID:2||DINOPHYCEAE:2||OBSERVING TRANSPARENT SPECIMENS:2||CROSSFLOW:2||velocity field measurement:2||ventilation flow:2||WALL:2||FLATPLATE:2||VELOCITYFIELD MEASUREMENTS:2||rotational oscillation:2||saltation:2||TRANSFER ENHANCEMENT:2||DIFFUSION:2||PHASECONTRAST:2||LOW WEBER:2||TRANSMISSION:2||Sand saltation:2||MEAN VELOCITY:2||POD:2||DAMAGE:2||Xray microimaging:2||INERTIAL MIGRATION:2||SEPARATION:2||Microparticle:2||finite cylinder (FC):2||UNIFORMFLOW:2||STREAM:2||WINDBREAK:2||FIELD:2||BOUNDARYLAYERS:2||FILTER:2||ENDPLATES:2||TOMOGRAPHY:2||PLASMODIUMFALCIPARUM:2||Porous fence:2||VALIDATION:2||ERROR ANALYSIS:2||particle image velocimetry (PIV):2||passenger compartment:2||flow structure:2||twoframe PTV:2||microcirculation:2||hemorheology:2||nonNewtonian:2||forcing frequency:2||cylinder wake:2||highspeed photography:2||SHEAR RATE:1||INTERROGATION:1||CANCER:1||CELLAGGREGATION:1||STRATEGIES:1||FRACTALS:1||COLLISION PROCESS:1||Foraging:1||FUNCTIONALMORPHOLOGY:1||Embolism recovery:1||ROUGHSURFACE:1||TRANSITIONS:1||GENERATION:1||UVvis spectroscopy:1||MICROSTRUCTURE:1||pulvinus:1||Xray computed tomography:1||APOPTOSIS:1||Speedspecific drag:1||Factor of safety:1||Wavy nozzle jet:1||WINDTUNNEL:1||SINGLE:1||VORTEXGENERATORS:1||ARTERIOLES:1||MICROCT:1||AMBIENT CONDITIONS:1||LIQUIDCRYSTALS:1||THINFILMS:1||PROSTATECANCER:1||GENEPRODUCTS:1||Blood coagulation:1||INHIBITION:1||microparticles:1||BeerLambertBouguer law:1||PHYTOREMEDIATION:1||3D motion:1||Collagen:1||AGGRECAN:1||suction pressure:1||Oring:1||LIQUID:1||OPTIMUM SUPPRESSION:1||elliptic nozzle:1||accumulator:1||flow:1||natural ventilation:1||windbreak:1||Zn pot:1||dross:1||threshold velocity:1||gap:1||nonuniform porosity:1||WAKES:1||turbulent shear layer:1||wave elevation:1||steel strip:1||shelter effect:1||impinging jet:1||Hematocrit:1||coherent structure:1||threshold wind speed:1||immersion depth:1||shearlayer instability:1||Phyllostachys bambusoides:1||NEED:1||exhaust hood:1||propeller inflow:1||visualization:1||feasibility:1||pressure sensitive paint (PSP):1||size:1||intake head:1||Vibrational characteristics:1||Wind tunnel test:1||RISKFACTORS:1||DETERMINANT:1||Chicken embryo:1||Temperature coefficient:1||Vitelline artery:1||VESICLES:1||sap flow velocity:1||xylem vessel elements:1||HYDRAULIC CONDUCTIVITY:1||FLUIDFLOW:1||SegreSilberberg annulus:1||PROFILE:1||smart materials:1||PLASMON RESONANCES:1||ASCENT:1||SOLVENT EXTRACTION/EVAPORATION:1||APPARENT FLUID SLIP:1||3DIMENSIONAL CHARACTERIZATION:1||MUPIV:1||Blood sucking:1||Fluid mechanics:1||PARTICLETRACKING VELOCIMETRY:1||Air bubble:1||Temperature baffle:1||Environmental influence:1||DISPERSION:1||POLLUTANTS:1||STENOTIC VESSELS:1||ATHEROSCLEROSIS:1||phasecontrast:1||dehydrated cells:1||EWOD:1||IMBIBITION:1||OFPLANE GEOMETRY:1||MALDIMS:1||TISSUE:1||ERYTHROCYTEMEMBRANE:1||CRYSTALLIZATION:1||OXIDATIVE STRESS:1||MICROPIV:1||ELECTRICALIMPEDANCE:1||bubbly flow:1||NUMBERS:1||CONTINUOUS SEPARATION:1||LEAF MOVEMENTS:1||ILLUMINATION:1||Flight:1||Flingandclap:1||LIFT PRODUCTION:1||hydrodynamic size:1||GASDIFFUSION LAYER:1||swimming characteristics:1||SPERM:1||PLANT MOVEMENTS:1||CELLFREE LAYER:1||PROTEINTYROSINE KINASE:1||VASCULARPERMEABILITY:1||18 CHICKEN EMBRYOS:1||HEART:1||intake rate:1||HYBRID:1||PIV measurement:1||Wind tunnel:1||Flow control:1||Tab:1||Erythrocytes:1||paraffin section:1||Water seepage:1||INFILTRATION:1||curcumin:1||antioxidant:1||KINASE:1||WATER DISTRIBUTION:1||SATURATION:1||imaging efficiency:1||IODINATED NANOPARTICLES:1||OPTICAL COHERENCE TOMOGRAPHY:1||Dynamic Xray imaging:1||Microscale flows:1||VITTATAL:1||ENVIRONMENT:1||PHOSPHATE:1||Chitosan:1||Synchrotron:1||Proteoglycans:1||bilge vortex:1||HSC:1||TANDEM:1||mixing:1||ASPECTRATIO:1||process:1||hilly obstacle:1||distortion and refraction compensation:1||near wake:1||BOUNDARY:1||ELLIPTIC JETS:1||coal piles:1||colour image processing:1||SALTATION:1||boom position:1||curtaintype airbag:1||wind damage:1||fluttering frequency:1||fluid entrainment:1||FLOW STRUCTURE:1||water refilling:1||STEMS:1||in vivo:1||PLANAR JET:1||lockon regime:1||shearstress sensors:1||lowspeed flow:1||plasma treatment:1||IMPINGING JET:1||FLOW VISUALIZATION:1||microbubble:1||HARMFUL:1||DIABETESMELLITUS:1||LIGHT:1||ENVIRONMENTAL HYPERTHERMIA:1||HYPOTHERMIA:1||PRESSURE CHAMBER:1||PEFC:1||CLOUD:1||Iopamidol:1||MICROCHANNEL:1||Twoframe PIV:1||Inkjet:1||PERFORMANCE:1||TUNNEL SIMULATION:1||STREET CANYONS:1||URBAN AREA:1||microcirculation:1||Synchrotron Xray imaging method:1||Flow velocimetry:1||RESPONSES:1||ULTRASOUND:1||hard Xray microscopy:1||tandem oil fence:1||AC electrowetting:1||CHITOSAN:1||FREQUENCY:1||SPHEROID CULTURE:1||BIOCHIPS:1||FRENCHGUIANA:1||HYDROPHOBIC INTERACTIONS:1||NANOPARTICLES:1||APPARENT VISCOSITY:1||FIBRINOGEN:1||MANIPULATION:1||ANGIOGRAPHY:1||ECHOCARDIOGRAPHY:1||biofluid flow:1||MULTIPHASE FLOWS:1||MRI:1||MICROSCALE PIPEFLOW:1||POLYMER:1||SURFACTANTS:1||LOTUS:1||Butterflies:1||ECHOGENICITY VARIATIONS:1||WALL SHEAR RATE:1||Perforation plate:1||REPAIR:1||Kinematics:1||FLYING ANIMALS:1||surface activation:1||femtosecond spectroscopy:1||digital holography:1||viscosity:1||Prorocentrum minimum:1||pulvinule:1||chick embryo:1||SIGNALTRANSDUCTION:1||THERAPY:1||Turbulent boundary layer:1||MULBERRY TREE:1||PUMP:1||Selfassembly:1||BLOCKCOPOLYMERS:1||Vortex:1||In vivo measurement:1||MOVEMENT:1||tumor migration:1||Venous valve:1||JUGULAR VENOUS VALVES:1||DIDS:1||VITELLINEVEIN LIGATION:1||Gold nanoparticles:1||HYPERACCUMULATION:1||COLLAGENS:1||LAYERS:1||stereoscopic PrV(SPIV):1||RIBLETS:1||PAIR:1||double hill:1||hybrid scheme:1||fence sand pile:1||HORSESHOE VORTEX:1||hole diameter:1||snout:1||continuous hotdip galvanizing:1||VERIFICATION:1||PACKETS:1||fillhose:1||BAGS:1||SCHOLANDER ASSUMPTION:1||RESURRECTION PLANT:1||parabolic CRL:1||LIGA process:1||LITHOGRAPHY:1||OPTICS:1||extraembryonic blood vessel:1||REYNOLDSNUMBER:1||oxygen quenching:1||selfcleaning:1||contact angle:1||LAMINAR:1||Laser vibrometry:1||Entry length:1||gold nanoparticle (AuNP):1||Poly(vinyl alcohol):1||Holography:1||INSECTS:1||PRESSURE:1||Cubic relationship:1||haematocrit:1||tumbling motion:1||containment and recovery:1||PREDICTION:1||ONACHIP:1||DEVICES:1||MEASURING ERYTHROCYTE DEFORMABILITY:1||SINGLE CELLS:1||FALCIPARUMMALARIA:1||plasmodium falciparum:1||deformability:1||AEGYPTI:1||THIOL PROBE:1||CHEMODOSIMETER:1||CLINICAL DIAGNOSTICS:1||TECHNOLOGIES:1||CARBONDIOXIDE:1||ABSORPTION:1||ENTRY FLOW:1||SHELTER:1||Suction flow:1||EVOLUTION:1||STENOTIC FLOWS:1||Imageenhancement technique:1||PERFORATION PLATES:1||XYLEM VESSEL:1||PLANTROOTS:1||SAP FLOW:1||DROPLET IMPACT:1||CONTACTANGLE:1||KINEMATICS:1||AERODYNAMICS:1||VISCOMETER:1||lipopolysaccharide:1||ENDOTHELIALCELLS:1||Evalue:1||Triblock copolymer:1||NANOCOMPOSITES:1||STAR:1||Bank of trees:1||WINDBREAKS:1||3D structure:1||CULICIDAE:1||WETTING FRONT:1||CANCERCELL INVASION:1||VEHICLE INTERIOR:1||ANION CHANNEL BLOCKERS:1||PLATELETAGGREGATION:1||BACKSCATTERING:1||HEART TUBE:1||CHEMISTRY:1||TRACKING VELOCIMETRY:1||FERN:1||SPECIATION:1||Xray microimaging technique:1||jet:1||SURFACEROUGHNESS:1||PLANE:1||recursive correlation algorithm:1||CBC (Correlation based correction):1||refrigerant:1||POROUS FENCES:1||UNIFORM:1||fin:1||struct:1||open storage yard:1||elliptic jet:1||wake control:1||vortex structure:1||PASSENGER:1||Louver ventilator:1||FIELDS:1||wake:1||FIELD EXTRACTION:1||DESICCATION:1||twophase flow:1||lowpressure steam turbine:1||convection:1||backside connection:1||FIELD SYNERGY PRINCIPLE:1||Vgroove:1||opaque material:1||mesh screen:1||RED TIDE:1||SCATTERING:1||Thermal effect:1||Vitelline arteries:1||Bifurcation:1||REDBLOODCELLS:1||MOUSE:1||end walls:1||Turbulent wake:1||Digital holography:1||contrast agents:1||selfassembly:1||SPECTROSCOPY:1||HELICAL FLOWS:1||Loading condition:1||Boundary layer:1||PRINCIPLE:1||microstenosis:1||Airbag inflator:1||HYDROGELS:1||oil spill:1||VIBRATION:1||TOSIDE ANASTOMOSIS:1||LEVEL SET METHOD:1||VIBRATIONS:1||GOLD SURFACES:1||SUPERLATTICES:1||HIGHLY SELECTIVE DETECTION:1||TRAP:1||bubble velocity:1||FLOTATION:1||SIMULATIONS:1||PLANT:1||DIFFUSIONLIMITED AGGREGATION:1||Biofluidics:1||NECTAR CONCENTRATION:1||Ultrasound speckle images:1||BRIGHT RING:1||IMPALEMENT:1||PLANE POROSITY DISTRIBUTIONS:1||PROPULSION:1||genistein:1||inflammation:1||TISSUE FACTOR:1||Windbreak forest:1||CHANNEL:1||SRmu CT:1||DIPTERA:1||Porous media:1||TISSUE CHARACTERIZATION:1||ROULEAUX FORMATION:1||hydrodynamic size (DH):1||EPIGENETIC FACTOR:1||hyperaccumulation:1||suction nozzle:1||sound pressure level:1||vortex shedding:1||DIFFERENT DIAMETERS:1||NOZZLE CONFIGURATION:1||MEANFLOW:1||performance test:1||numerical simulation:1||turbulence model:1||wind tunnel:1||coal pile:1||counterrotating twinvortex:1||galvanizing process:1||finite cylinder:1||stagnation region:1||surface protrusions:1||temperature field measurement:1||Factory building:1||NOISE:1||PHLOEM:1||ABL:1||VELOCITY PROFILE:1||Xray focusing:1||vessel configuration:1||total velocity:1||BLOOD FLOWS:1||microchannel:1||selfassembled monolayer (SAM):1||BIOLOGICAL SURFACES:1||inline holography:1||BUBBLE:1||dual energy absorptiometry:1||WAVY CYLINDER:1||heat transfer enhancement:1||hydraulic resistance:1||perforation plate:1||LIQUID WATER:1||Wind erosion:1||2PHASE MEASUREMENTS:1||sap flow:1||PIV TECHNIQUE:1||PIPE:1||Particle tracking velocimetry:1||Hull wake:1||SOUND:1||temperature mode:1||VEHICLE:1||Windtunnel:1||haemodiluted blood flow:1||microparticle image velocimetry:1||rolling motion:1||MHD ship propulsion:1||Contrast enhancement:1||Speckle patterns of blood:1||metastasized lung tissue:1||fluid flow velocity:1||Drop oscillation:1||Contact line friction:1||SECONDARY FLOW:1||PLATE:1||PLASMODIUMVIVAX MALARIA:1||PHASE MICROSCOPY:1||FEEDINGBEHAVIOR:1||PHASEBEHAVIOR:1||CELLMIGRATION:1||GLUTATHIONE:1||CARE:1||ENHANCEMENT:1||void fraction:1||bubble size:1||DEPOSITION:1||POLYMER BLENDS:1||POLYPHOSPHAZENES:1||POLYNUCLEOTIDES:1||DNA:1||DIMENSION:1||Collision process:1||WINDEROSION:1||LEPIDOPTERA INSECTA:1||ADULT LEPIDOPTERA:1||Atherosclerosis:1||WHOLEBLOOD:1||Radial transport:1||Takeoff:1||nanoparticles:1||COMPUTEDTOMOGRAPHY:1||flagella motion:1||LODGING SAFETY FACTOR:1||FLEXIBILITY:1||SUCKING:1||CONTRAST MICROSCOPY:1||Jet:1||CHICKEN EMBRYOS:1||BLOCKCOPOLYMER SOLUTIONS:1||tumor invasion:1||PANCREATICCANCER:1||BREASTCANCER:1||Ventilation flow:1||Passenger compartment:1||Speckle analysis:1||Porosity:1||Red blood cells:1||Threedimensional particle tracking velocimetry (3D PTV):1||Biofluid flows:1||EXTRACTION:1||RADIOLOGY:1||microorganism:1||ORGANISMS:1||two pumping organs:1||thermal fluid flow:1||solidity ratio:1||ship wake:1||CIRCULARCYLINDERS:1||MEAN FLOW:1||measurement:1||2D PIV:1||flow field:1||SURFACEMOUNTED OBSTACLES:1||BOUNDARYLAYER FLOWS:1||POSCO:1||nozzle agent ratio:1||thermochromic liquid crystal:1||GREENHOUSE:1||SUSPENSION:1||kiwifruit cane:1||temporal variation:1||EMBOLISM REPAIR:1||particle trajectory:1||kinoform:1||PMMA:1||SLOT JETS:1||MASSTRANSFER:1||fluorescent particle:1||CALIBRATION:1||polymer binder:1||aging:1||Xray PTV:1||Xray spectroscopy:1||AQUEOUSSOLUTIONS:1||rice (Oryza sativa):1||water transport:1||LAURUSNOBILIS:1||PIT MEMBRANES:1||Back diffusion:1||QUANTIFICATION:1||XYLEM:1||Micro:1||MICROPARTICLE IMAGE VELOCIMETRY:1||HOLOGRAPHIC MICROSCOPY:1||Mosquito:1||TUBES:1||Arterial bifurcation:1||Bifurcation angle:1||Minimum work principle:1||BRANCHING ANGLES:1||TREES:1||MHD flows:1||Xray PIV:1||MELLITUS:1||droplet:1||DNAMOLECULES:1||Resonance frequency:1||ELECTROWETTINGBASED ACTUATION:1||SEDIMENTATION:1||HYPERPARASITEMIA:1||FEMALE MOSQUITO:1||INTERFACES:1||PATTERN:1||LARGE EMISSION SHIFT:1||IMPROVEMENT:1||SYSTEMS:1||REMOVAL:1||CO2 microbubbles:1||GEOMETRIES:1||HYDRAULIC CONDUCTANCE:1||POLYMER NANOCOMPOSITES:1||SHIFTS:1||AEOLIAN SALTATION:1||PROBABILITY:1||Particle image velocimetry (PIV):1||PORCINE BLOOD:1||STENOSED TUBE:1||Xylem vessel:1||Butterfly:1||LEPIDOPTERA:1||proximity length:1||Actinidia deliciosa P:1||INDUCED THROMBUS FORMATION:1||liquidfeeding mosquito:1||viscous liquid:1||DIGITAL HOLOGRAPHY:1||Turbulent mixing:1||VIVO:1||Tubular pinch effect:1||SOILS:1||SUPPRESSOR HLJ1:1||EXPRESSION:1||Tomography:1||CRACKS:1||phytoremediation:1||ACCUMULATION:1||MOSQUITO:1||SPEED:1||IMAGE:1||CORNEAL STROMA:1||female mosquito:1||aerodynamic power:1||holographic interferometry:1||control cylinder:1||critical pitch distance:1||round nozzle:1||longitudinal vortex:1||vehicle interior:1||single hill:1||match probability:1||RNG kepsilon turbulence model:1||SHELTERBELTS:1||singleframe PIV:1||porous wind fences:1||PRESSURES:1||Natural ventilation:1||riblet:1||vortex identification:1||FILM:1||propeller:1||TENSION:1||chicken blood:1||sinusoidal cylinder:1||rectangular jet impingement:1||frequency response:1||luminophore:1||sliding angle:1||Xray photoelectron spectroscopy (XPS):1||MEMS:1||NACA 0012 airfoil:1||VORTICES:1||suction efficiency:1||ORIENTATION:1||Heart rate:1||In vitro viscosity law:1||DISTANCE WATER TRANSPORT:1||FRAXINUSAMERICANA:1||WOODYPLANTS:1||Synchrotron Xray imaging:1||Flow tracing sensor:1||Microcapsules:1||Sensor tracer:1||FEEDING STRATEGY:1||Piezoelectric printhead:1||DISPLAYS:1||Bilevel mode:1||Flow visualization:1||Microcirculation:1||MODELS:1||WALL SHEAR:1||Digital image processing:1||NANOSTRUCTURES:1||TRANSPIRATION:1||BLOODCELL MEMBRANE:1||ENDOTHELIAL FUNCTION:1||evaporation:1||leakage velocity:1||CAPILLARYFLOW:1||MEDIA:1||WALL SHEARSTRESS:1||CHALLENGES:1||FALCIPARUMINFECTED ERYTHROCYTES:1||CHLOROQUINE:1||NANOCRYSTALS:1||COLLAPSE:1||LIGHTRESPONSIVENESS:1||VISCOELASTICITY:1||particle image velocimetry:1||AIREMBOLISM:1||flowtracing contrast media:1||REACTOR:1||PHASESEPARATION:1||Trajectory:1||LIFTOFF:1||RATES:1||Stenosis:1||Helical flow:1||ARTERIALSTENOSIS:1||HOVERING INSECT FLIGHT:1||secondary pulvinus:1||PULVINUS:1||KAPPAB ACTIVATION:1||PATHWAYS:1||ARTERIAL:1||OPERATION:1||FENCE:1||Stereoscopic PIV:1||female mosquitoes:1||STABILITY ANALYSIS:1||plectin:1||PROLIFERATION:1||METASTASIS:1||ELECTROLYTE FUELCELL:1||Xray contrast agents:1||STAGE 18:1||ENVIRONMENTAL HYPOTHERMIA:1||ERYTHROCYTES:1||MEMBRANES:1||PEPTIDES:1||ALGORITHM:1||MICROFLUIDICS:1||Pteris cretica:1||XYLEM HYDRAULIC RESISTANCE:1||NANOPARTICLE:1||digital holographic microscopy:1||PARTICLE FIELDS:1||Xray microscopy:1||Sclera:1||total system drag:1||PAST 2 CYLINDERS:1||FLUID FORCES:1||wake structure:1||entrainment:1||ENTRAINMENT:1||PARTICLE:1||rotary compressor:1||THRESHOLD:1||REATTACHMENT:1||hybrid PTV:1||Atmospheric boundary layer:1||WALL TURBULENCE:1||CHANNEL FLOW:1||EVENTS:1||PROFILES:1||inflow:1||microimaging:1||desert sand:1||pulsatility:1||sand particles:1||PHASECONTRAST MICROSCOPY:1||bulk micromachining:1||enhancement:1||fluoroscopy:1||DETECTOR:1||ALEXANDRIUM DINOPHYCEAE:1||COASTAL WATERS:1||TRANSVERSE:1||SPECKLE SIZE MEASUREMENT:1||AORTA:1||SCALARIFORM PERFORATION PLATES:1||BLOODCELLS:1||dynamic Xray imaging:1||SYNCHROTRONRADIATION:1||Microfluidics:1||Stereoscopy:1||VELOCITYFIELD:1||Longitudinal vortex:1||Inflow:1||Food canal:1||PROPAGATION:1||ventilation mode:1||Design rule:1||CARDIOVASCULARSYSTEM:1||OPTIMIZATION:1||NETWORKS:1||automobile:1||ray tracing:1||CONVECTION:1||Shape mode equation:1||PIPEFLOW:1||2PHASE FLOW:1||CELLCULTURE:1||SINGLECELL:1||red blood cell:1||quantitative phase imaging:1||DISEASES:1||SENSOR:1||

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