Author: N. Erasmus

0000000000752000

AUTHOR

N. Erasmus

showing 4 related works from this author

FRIPON: a worldwide network to track incoming meteoroids

2020

Context. Until recently, camera networks designed for monitoring fireballs worldwide were not fully automated, implying that in case of a meteorite fall, the recovery campaign was rarely immediate. This was an important limiting factor as the most fragile - hence precious - meteorites must be recovered rapidly to avoid their alteration. Aims. The Fireball Recovery and InterPlanetary Observation Network (FRIPON) scientific project was designed to overcome this limitation. This network comprises a fully automated camera and radio network deployed over a significant fraction of western Europe and a small fraction of Canada. As of today, it consists of 150 cameras and 25 European radio receiver…

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Ultrafast Metamorphosis of a Complex Charge Density Wave in Tantalumdiselenite

2016

Using ultrafast electron diffraction, we record the transformation between a nearly-commensurate and an incommensurate charge-density-wave in 1T-TaS2, which takes place orders of magnitude faster than previously observed for commensurate-to-incommensurate transitions.

Condensed Matter::Quantum GasesDiffractionPhysicsOrders of magnitude (temperature)Ultrafast electron diffractionmedia_common.quotation_subjectPhysics::OpticsCondensed Matter::SuperconductivityElectric fieldCondensed Matter::Strongly Correlated ElectronsAtomic physicsTime-resolved spectroscopyMetamorphosisCharge density waveUltrashort pulsemedia_commonInternational Conference on Ultrafast Phenomena

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Ultrafast Metamorphosis of a Complex Charge-Density Wave

2015

Modulated phases, commensurate or incommensurate with the host crystal lattice, are ubiquitous in solids. The transition between such phases involves formation and rearrangement of domain walls and is generally slow. Using ultrafast electron diffraction, we directly record the photoinduced transformation between a nearly commensurate and an incommensurate charge-density-wave phase in 1T-TaS(2). The transformation takes place on the picosecond time scale, orders of magnitude faster than previously observed for commensurate-to-incommensurate transitions. The transition speed and mechanism can be linked to the peculiar nanoscale structure of the photoexcited nearly commensurate phase.

Condensed Matter::Quantum GasesMaterials scienceCondensed matter physicsUltrafast electron diffractionGeneral Physics and Astronomy02 engineering and technologyCrystal structure021001 nanoscience & nanotechnology01 natural sciencesOrders of magnitude (time)Condensed Matter::SuperconductivityPicosecondPhase (matter)0103 physical sciencesCondensed Matter::Strongly Correlated Electrons010306 general physics0210 nano-technologyNanoscopic scaleUltrashort pulseCharge density wavePhysical Review Letters

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β and γ bands in N = 88, 90, and 92 isotones investigated with a five-dimensional collective Hamiltonian based on covariant density functional theory…

2019

A comprehensive systematic study is made for the collective β and γ bands in even-even isotopes with neutron numbers N=88 to 92 and proton numbers Z=62(Sm) to 70 (Yb). Data, including excitation energies, B(E0) and B(E2) values, and branching ratios from previously published experiments are collated with new data presented for the first time in this study. The experimental data are compared to calculations using a five-dimensional collective Hamiltonian (5DCH) based on the covariant density functional theory (CDFT). A realistic potential in the quadrupole shape parameters V(β,γ) is determined from potential energy surfaces (PES) calculated using the CDFT. The parameters of the 5DCH are fixe…

electromagnetic transitionsnuclear density functional theorynuclear spin and paritynucleon induced nuclear reactionscollective levelscollective modelslow and intermediate energy heavy-ion reactionsydinfysiikka

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