sameAs
Partial melting mechanisms of embedded nanocrystalsRu/Al Multilayers Integrate Maximum Energy Density and Ductility for Reactive Materials.Atomistic Simulation of the Transition from Atomistic to Macroscopic CrateringFine Structure in Swift Heavy Ion Tracks in Amorphous SiO 2Strings and interstitials in liquids, glasses and crystalsA Be-W interatomic potential.Growth of single-walled carbon nanotubes from sharp metal tips.The nature of high-energy radiation damage in iron.Inoculation of silicon nanoparticles with silver atoms.Adaptive molecular decomposition: large-scale quantum chemistry for liquids.SAXS investigations of the morphology of swift heavy ion tracks in α-quartz.Atomistic simulation of the measurement of mechanical properties of gold nanorods by AFM.Absence of single critical dose for the amorphization of quartz under ion irradiation.Nanoscale density variations induced by high energy heavy ions in amorphous silicon nitride and silicon dioxide.Effects of crystallographic and geometric orientation on ion beam sputtering of gold nanorods.Analytical bond order potential for simulations of BeO 1D and 2D nanostructures and plasma-surface interactions.Kinetic Monte Carlo simulations of proton conductivity.Reactive force field potential for carbon deposition on silicon surfaces.Mechanism of Radiation Damage Reduction in Equiatomic Multicomponent Single Phase Alloys.Formation Mechanism of Fe Nanocubes by Magnetron Sputtering Inert Gas Condensation.Molecular dynamics of single-particle impacts predicts phase diagrams for large scale pattern formation.Atomistic modeling of metal surfaces under electric fields: direct coupling of electric fields to a molecular dynamics algorithm.A new parametrization of the Stillinger-Weber potential for an improved description of defects and plasticity of silicon.Optimizing the sputter deposition process of polymers for the Storing Matter technique using PMMA.Improving atomic displacement and replacement calculations with physically realistic damage models.Simulation of Rutherford backscattering spectrometry from arbitrary atom structures.Atomistic simulations of stainless steels: a many-body potential for the Fe-Cr-C system.Effects of precipitates and dislocation loops on the yield stress of irradiated iron.EditorialStopping of energetic cobalt clusters and formation of radiation damage in graphiteOrigin of complex impact craters on native oxide coated silicon surfacesDirectional Sensitivity in Light-Mass Dark Matter Searches with Single-Electron-Resolution Ionization DetectorsMultiscale modeling of dislocation-precipitate interactions in Fe: From molecular dynamics to discrete dislocationsElectronic effects in high-energy radiation damage in tungstenSimulations of electromechanical shape transformations of Au nanoparticlesExperimental and Numerical Study of Submonolayer Sputter Deposition of Polystyrene Fragments on Silver for the Storing Matter TechniqueElectronic effects in high-energy radiation damage in ironMolecular dynamics simulation of radiation damage in CaCd6 quasicrystal cubic approximant up to 10 keVTracks and Voids in Amorphous Ge Induced by Swift Heavy-Ion IrradiationSelf-assembly of oxide-supported metal clusters into ring-like structures
P50
Q21563772-B80AA682-CF0D-4F9C-B9D9-EF170CE8682EQ27301329-0E1CEC27-BA87-4FF9-84B2-F6FBB480A2BFQ27350376-E37A890E-2827-4482-9D13-5897F7112C95Q27445653-462A22CB-3FAB-4FD9-B596-0C79EAD9E984Q30039658-2AA33004-1D6F-41FF-A4BB-2FF68932EEC5Q33350788-9EEFD28A-66B6-412A-A215-2E561288ED94Q33501770-4220E6F0-BF6E-47D5-A979-9B86C58C184CQ39459498-84BF757C-60FB-4D74-98FA-97304D27E06DQ42228872-901F75AD-7D7C-455B-B121-506E18DE9FD6Q44545277-D37E4151-7FD0-4B3A-B9D8-7CF414258BC7Q44799221-9C95F36B-C0C9-4EB9-BED2-4E7FEFA7DFDBQ47143865-15529EAA-841C-4C6F-9E73-822FC14A0F6CQ47618821-99174D48-A2D4-456E-AF04-2701BC09FF63Q48042936-6D6F007E-D8F8-4173-B2D1-153C9A6420A1Q48263273-83CE9F32-74A3-4460-8BD6-8B8063A0DA79Q49941656-AE0D891D-7148-4C9B-8B59-F7A840C5F84FQ51056817-51363B89-8033-4983-B4AD-90BB50936D03Q51330623-56BE014E-4F71-41C1-A2B6-222B45400891Q51370372-29D279E6-CDE3-4061-8998-3C8F0A0B62D1Q51454522-44F0A567-D6AC-4BE1-B338-445E128BBCABQ51577403-29BA32AC-C30D-4732-9EAD-DFBB91E85F53Q51591684-5E074B87-D7CA-417E-B6B1-614F850C6719Q51598746-5B049D12-B84E-4B33-88D6-6FC36D85D03FQ51769670-F695E191-3BB9-4936-A694-E5E8C7BD9EA9Q52655394-3F504ED3-C5DD-49D5-8978-908BD639BCA2Q52814340-DE3DF9E6-47CA-4B83-B6B5-F0A9A8F8497AQ54788130-8D183098-F888-4E71-9C30-2F629E61478DQ55002278-36C39098-28B9-423C-818E-AA14097E63FBQ57397837-41D2584A-F310-4E7B-AA0C-FB7D7707601CQ57408188-B561067D-0D42-4B78-BBD6-66D0B4DB0F98Q57408214-F845DE70-3710-4360-8E74-2F23C9F8BF73Q61964242-973C2866-A1F5-4FC1-AF02-FAEF68965E07Q61964379-D70D37E7-2B9B-41E9-84B2-C5B6BB785266Q61964434-335B5155-EEC7-400C-BB33-ECF4F3DF79B4Q61964460-4A2A61B5-FC0B-4282-846E-7A154ED0FAE9Q61964471-00FAA2CF-7627-464C-903F-AB3035EDE2E3Q61964522-5AAF2306-9B60-4A12-8B4C-FC5C7F92C5FCQ61964575-B3133152-7A0F-4CE3-AD10-25723281A32EQ61964577-5680A49F-9A73-4279-AF6E-DE841E7CEB5CQ61964597-9C2FA344-F253-439B-9807-86422D6980D3
P50
description
Finnish physicist
@en
Finnish physicist
@en-ca
Finnish physicist
@en-gb
Fins natuurkundige
@nl
Soome füüsik
@et
finnischer Physiker
@de
fisico finlandese
@it
fisikari finlandiarra
@eu
fizician finlandez
@ro
fizikan finlandez
@sq
name
Kai Nordlund
@ast
Kai Nordlund
@ca
Kai Nordlund
@en
Kai Nordlund
@es
Kai Nordlund
@fi
Kai Nordlund
@fr
Kai Nordlund
@ga
Kai Nordlund
@nl
Kai Nordlund
@sl
Kai Nordlund
@sq
type
label
Kai Nordlund
@ast
Kai Nordlund
@ca
Kai Nordlund
@en
Kai Nordlund
@es
Kai Nordlund
@fi
Kai Nordlund
@fr
Kai Nordlund
@ga
Kai Nordlund
@nl
Kai Nordlund
@sl
Kai Nordlund
@sq
prefLabel
Kai Nordlund
@ast
Kai Nordlund
@ca
Kai Nordlund
@en
Kai Nordlund
@es
Kai Nordlund
@fi
Kai Nordlund
@fr
Kai Nordlund
@ga
Kai Nordlund
@nl
Kai Nordlund
@sl
Kai Nordlund
@sq
P1053
L-8275-2014
P1153
8161240100
P21
P27
P2798
P31
P3829
P496
0000-0001-6244-1942
P569
1969-01-01T00:00:00Z