Sorted ACMS Movies index

ACMS Movie Catagories | All ACMS Movies | Sorted

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5.0-anim Interplay between plasma defocussing and self-focussing leads to an apparent long propagation of ultrashort pulses in air.

AbovePBGPart01-SlicePoynting View of electromagnetic quantities inside mode region [2.5MB]

AbovePBGPart02-EnergyDensityRotate View of electromagnetic quantities inside mode region [2.5MB]

AbovePBGPart03-EnergyTimeEvolution View of electromagnetic quantities inside mode region [2.5MB]

AbovePBGPart04-TimeAverageEnergy View of electromagnetic quantities inside mode region [2.5MB]

AbovePBGPart05-QuarterDomainTimeSeries View of electromagnetic quantities inside mode region [2.5MB]

AbovePBGPart06-PropagationInsidePBG View of electromagnetic quantities inside mode region [2.5MB]

AbovePBGPart07-EvanescentField View of electromagnetic quantities inside mode region [2.5MB]

BlockBaseCurrOnRubZnorm740nm Near field structure and resonant behavior of metallic bowtie nano-structures

BlockLongBaseCurrOnRubZnorm740nm Near field structure and resonant behavior of metallic bowtie nano-structures

CarrierDensandIntenFlatDiffusion640x480VideoQualLarge Broad Area Laser [3.2MB]

CarrierDensandIntenFlatDiffusion640x480xdt10xfps10VideoQualLarge Broad Area Laser [4.8MB]

CurrentOnRubberY-norm740nm Near field structure and resonant behavior of metallic bowtie nano-structures

CurrentOnRubberZNorm740nm Assorted plasmon resonance movies of an isolated 20nm thick Gold spike structure in air.

DifferenceCamRotate Energy difference with and without quantum dot [7.1MB]

ElectronsOnSpike375nm1650nm Assorted plasmon resonance movies of an isolated 20nm thick Gold spike structure in air.

ElectronsOnSpike375nm615nm Assorted plasmon resonance movies of an isolated 20nm thick Gold spike structure in air.

EnergyDensityWithQD Energy density dynamics around quantum dot in PBG nanocavity [0.9MB]

EnergyDensityWithoutQD Energy density dynamics around nano cavity without quantum dot in nanocavity [0.9MB]

EvanTimeSeries Time evolution of evenescent field above PBG slab [4.2MB]

ExOnSlice740nm Near field structure and resonant behavior of metallic bowtie nano-structures

Figure1 Time series of the energy density in the half space above the structure [1.2MB]

Figure2 The log of the time averaged local Poynting vector in the mode region [2.4MB]

Figure4 The normalized energy density with and without the atom [1.6MB]

FullHiQPBGintroMovie Introduction movie to Photonic crystal structures [31MB]

InsidePBGPart01-TheStructure View of electromagnetic quantities inside mode region [2.5MB]

InsidePBGPart02-Efield View of electromagnetic quantities inside mode region [2.5MB]

InsidePBGPart03-Sfield View of electromagnetic quantities inside mode region [2.5MB]

InsidePBGPart04-EnergyDensity View of electromagnetic quantities inside mode region [2.5MB]

InsidePBGPart05-Poynting View of electromagnetic quantities inside mode region [2.5MB]

Intensity740nm Near field structure and resonant behavior of metallic bowtie nano-structures

Long145nmCurrentOnRubberZ Assorted plasmon resonance movies of an isolated 20nm thick Gold spike structure in air.

Long225nmCurrentOnRubberZ Assorted plasmon resonance movies of an isolated 20nm thick Gold spike structure in air.

Long375nmCurrentOnRubberZ Assorted plasmon resonance movies of an isolated 20nm thick Gold spike structure in air.

LongBaseIntensity1020nm Near field structure and resonant behavior of metallic bowtie nano-structures

LongBaseIntensity1020nm Assorted plasmon resonance movies of an isolated 20nm thick Gold spike structure in air.

LongBaseIntensity740nm Near field structure and resonant behavior of metallic bowtie nano-structures

Media1 Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

Media2 Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

Media3 The time series of the intensity for the 3D quantum dot trap for balanced and unbalanced operation [1.2MB]

Media4 Spatial distribution of the microscopically computed force in 3D quantum dot nano-trap [1.2MB]

MiroCont Animation illustrating the evolution of the far-field spectrum filling-up the union of the phase-matched regions.

MiroCont512x320 Animation illustrating the evolution of the far-field spectrum filling-up the union of the phase-matched regions.

MiroIntensity Shows temporal dynamics of optical collapse [3.5MB]

MiroIntensityInterp Shows temporal dynamics of optical collapse [4.6MB]

MiroV1 Animation illustrating the evolution of the far-field spectrum filling-up the union of the phase-matched regions.

MiroV2800x600x95 Animation illustrating the evolution of the far-field spectrum filling-up the union of the phase-matched regions.

MiroV2WithCont Animation illustrating the evolution of the far-field spectrum filling-up the union of the phase-matched regions.

MiroV3 Animation illustrating the evolution of the far-field spectrum filling-up the union of the phase-matched regions.

MiroV3512x321x10 Animation illustrating the evolution of the far-field spectrum filling-up the union of the phase-matched regions.

MiroV3512x321x10Flat Animation illustrating the evolution of the far-field spectrum filling-up the union of the phase-matched regions.

Montg SplitRingResonator/Montg

Montg.png SplitRingResonator/Montg.png

Movie10fsMieRes1369nm3um11Pct 10fs pulse at 1.396micron propagation through a scattering medium

MovieCamCloseIn250fs1369nmMieRes A close in view of a 250fs pulse hitting 3.0micron radius disk

MovieCamLongShot250fs1369nmMieRes Pulse propagation of 250fs pulse centered at 1.369micron

MovieCinelerra6 Animation illustrating the evolution of the far-field spectrum filling-up the union of the phase-matched regions.

MovieCloseIn10fsSingleDisk Close in view of single disk response to 10fs pulse

MovieFrameWGM10fsSingleDisk Whispering Gallery Mode excited on a single 3.0micron radius disk by 10fs pulse

MovieLongShot10fsSingleDisk 10fs pulse pulse propagation through 3.0micron radius disk.

MovieWholeDom10fs1.5um2.9Pct 10fs Pulse propagation through a scattering medium

MovieWholeDom250fsAt1369nm11Pct BallisticPhotons/MovieWholeDom250fsAt1369nm11Pct

MovieWholeDom250fsLongTime Pulse propagation through a scattering medium

MovieWholeDomCW1760nm2.9PctMieRes Pulse propagation through a scattering medium

NRGIsoQuarterDomTimeSeries640x480 Radiation pattern above a slab PBG nano cavity [2.1MB]

NRGwithQDFromTop Energy density dynamics around quantum dot in PBG nanocavity [4.4MB]

O-WaveCont1.0e+15 The elliptic shaped texture of the spectrum around the fundamental frequency reflects the nature of the so-called linear O-waves

O-WaveCont1.5e+15 The elliptic shaped texture of the spectrum around the fundamental frequency reflects the nature of the so-called linear O-waves

O-WaveCont2.0e+15 The elliptic shaped texture of the spectrum around the fundamental frequency reflects the nature of the so-called linear O-waves

Part1InsidePBG Multiple vievs of electromagnetic quantities inside mode region [25MB]

Part2AbovePBG Multiple views of radation pattern above nano cavity slab PBG [44MB]

QuadEvectInMetal-z-norm Near field structure and resonant behavior of metallic bowtie nano-structures

QuadEvectInMetal-z-normLeftHand Near field structure and resonant behavior of metallic bowtie nano-structures

QuadSurfaceCharge740nm Near field structure and resonant behavior of metallic bowtie nano-structures

Rho1Dcut527nm Line cut of Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

Rho1Dcut527nm Line cut of Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

Rho1Dcut615nm Line cut of Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

Rho1Dcut615nm Line cut of Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoMalteseCross Assorted plasmon resonance movies of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberYSpike145nm830nm Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberYSpike145nm830nm Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZ527nm Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZ527nm Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZSpike145nm518nm Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZSpike145nm518nm Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZSpike145nm830nm Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZSpike145nm830nm Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZSpike225nm1150nm Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZSpike225nm1150nm Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZSpike375nm1650nm Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZSpike375nm1650nm Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZSpike375nm1650nmCloseIn Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZSpike375nm1650nmCloseIn Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZSpike375nm615nm Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZSpike375nm615nm Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZSpike375nm615nmCloseIn Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZSpike375nm615nmCloseIn Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZSpike375nm750nm Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZSpike375nm750nm Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZTri65nm600nm Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

RhoOnRubberZTri65nm600nm Plasmon resonance of an isolated 20nm thick Gold spike structure in air.

SingTriCurrentOnRubberYnorm740nm Near field structure and resonant behavior of metallic bowtie nano-structures

SingTriCurrentOnRubberZNorm740nm Near field structure and resonant behavior of metallic bowtie nano-structures

SingleNanoWireMovie The electric and magnetic fields around a single metal nanowire at 560nm [20MB]

SurfaceCharge375nmSpikes Assorted plasmon resonance movies of an isolated 20nm thick Gold spike structure in air.

SurfaceCharge820nm Near field structure and resonant behavior of metallic bowtie nano-structures

SurfaceChargeCloseIn820nm Near field structure and resonant behavior of metallic bowtie nano-structures

SurfaceChargeSingTri740nm Near field structure and resonant behavior of metallic bowtie nano-structures

SurfaceChargeSingTri740nm Assorted plasmon resonance movies of an isolated 20nm thick Gold spike structure in air.

THGcmp1.0e+15 Third-harmonic (TH) generation

THGcmp1.0e+15V2 Third-harmonic (TH) generation

THGcmp1.25e+15 Third-harmonic (TH) generation

THGcmp1.5e+15 Third-harmonic (TH) generation

THGcmp1.75e+15 Third-harmonic (TH) generation

THGcmp2.0e+15 Third-harmonic (TH) generation

THGcmp2.0e+15V2 Third-harmonic (TH) generation

THGfin0.5e+15 Third-harmonic (TH) generation

THGfin1.0e+15 Third-harmonic (TH) generation

THGfin2.0e+15 Third-harmonic (TH) generation

THGfin3.0e+15 Third-harmonic (TH) generation

THGfin4.0e+15 Third-harmonic (TH) generation

THGfin5.0e+15 Third-harmonic (TH) generation

THGfin6.0e+15 Third-harmonic (TH) generation

TwoWire503nm The electric field....

TwoWireMovie503nm The electric and magnetic fields around two metal nanowires at 503nm [13MB]

TwoWireMovie560nm The electric and magnetic fields around two metal nanowires at 560nm [13MB]

TwoWireMovieAt560nm The electric and magnetic fields around two metal nanowires at 560nm [20MB]

URhoAndCurlH1010nmKzEx Resonance of an 20nm thick Gold Split Ring Resonator in air.

URhoAndCurlH1050nmKzEx Resonance of an 20nm thick Gold Split Ring Resonator in air.

URhoAndCurlH1100nmKzEx Resonance of an 20nm thick Gold Split Ring Resonator in air.

URhoAndCurlH1150nmKzEx Resonance of an 20nm thick Gold Split Ring Resonator in air.

URhoAndCurlH1200nmKzEx Resonance of an 20nm thick Gold Split Ring Resonator in air.

URhoAndCurlH1240nmKzEx Resonance of an 20nm thick Gold Split Ring Resonator in air.

URhoAndCurlH630nmKzEx Resonance of an 20nm thick Gold Split Ring Resonator in air.

URhoAndCurlH695nmKzEx Resonance of an 20nm thick Gold Split Ring Resonator in air.

URhoAndCurlH701nmKzEx Resonance of an 20nm thick Gold Split Ring Resonator in air.

URhoAndCurlH750nmKzEx Resonance of an 20nm thick Gold Split Ring Resonator in air.

URhoAndCurlH770nmKzEx Resonance of an 20nm thick Gold Split Ring Resonator in air.

URhoAndCurlH790nmKzEx Resonance of an 20nm thick Gold Split Ring Resonator in air.

XCamRotFinal Animation illustrating the evolution of the far-field spectrum filling-up the union of the phase-matched regions.

ZoomGrid800x600x30fps Shows Adaptive mesh refinment grids around quantum dot [13MB]

eye_plasma-an-hlf-12 Pulses of longer duration have their collapse halted due to Plasma generation.

miroFullmovie720x480x30fpsScaled Shows temporal and spectral dynamics of optical collapse [5.4MB]

miroMovieV2800x600 Shows temporal and spectral dynamics of optical collapse [8.3MB]

nanoWireMovie2 The electric and magnetic fields around a single metal nanowire at 560nm [9.9MB]

outfile The Ikeda map with diffraction produces complex patterns

pulse_split-an-hlf-12 Self-focussing leads towards collapse. Normal group velocity dispersion will split a collapsing pulse