Introduction to Reflectometry and Small Angle Scattering under Grazing Incidence
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1 Mitglied der Helmholtz-Gemeinschaft Introduction to Reflectometry and Small Angle Scattering under Grazing Incidence E. Kentzinger Jülich Center for Neutron Science and Peter Grünberg Institut Jülich Research Center Laboratory course, September 2015
2 Plan Introduction: Nanoscience and Nanotechnology Method: Reflectivity, off-specular scattering and GISAS Specular reflectivity Measurement of neutron reflectivity Crystallography at mesoscopic length scales: GISAXS from a nanoparticle assembly on a surface Conclusion and outlook September 14, 2015 Folie 2
3 Biological membranes: Semi-permeable phospholipid bilayer Hydrophobic and hydrophilic components Source: Membrane proteins and other molecules in biomembranes Involved in cell signaling, cell adhesion, cells fusion and ion conductivity September 14, 2015 Folie 3
4 Magnetic thin films Ultra thin films Anisotropies at surfaces and interfaces Exchange bias Interlayer exchange coupling Giant magnetoresistance Tunnel magnetoresistance Sensor: The Giant Magneto-Resistance effect: New Field of science: Spintronics Nobel Prize 2007 September 14, 2015 Folie 4 A. Fert et al. (1988), P. Grünberg et al. (1989)
5 Self-organized magnetic nanoparticles for high density storage media S. Sun, C. Murray, D. Weller, L. Folks, A. Moser, Science 287, 1989 (2000) September 14, 2015 Folie 5
6 Plan Introduction: Nanoscience and Nanotechnology Method: Reflectivity, off-specular scattering and GISAS Specular reflectivity Measurement of neutron reflectivity Crystallography at mesoscopic length scales: GISAXS from a nanoparticle assembly on a surface Conclusion and outlook September 14, 2015 Folie 6
7 Specular reflectivity: flat surface Refraction: θ 1 < θ, if n 1 < n 0 typically n < 1 for neutrons and x-rays reflected beam θ θ θ 1 n 0 =1 n 1 <1 R = r 2 2 T = t transmitted beam c α i September 14, 2015 Folie 7 c α i
8 Specular reflectivity: layer on surface Interference between reflected beams according to path length difference reflected beam 2 n 0 =1 θ θ θ θ 1 θ 1 reflected beam 1 n 1 <1 θ 2 n 1 <n 2 <1 transmitted beam September 14, 2015 Folie 8
9 Offspecular scattering: rough interface Broken translational invariance à Off-specular (diffuse) scattering θ=α i θ α f >θ α f =θ θ 1 θ 1 θ 2 September 14, 2015 Folie 9
10 Reflectivity and off-specular scattering In-plane structure can be investigated by off-specular diffuse scattering: Q = k f k i, k = 2 / If α f = α i then Q = 0: specular reflectivity average over lateral coordinates If α f α i then Q 0: off-specular scattering lateral correlations can be probed September 14, 2015 Folie 10
11 The two scattering geometries (Grazing Incidence Small Angle Scattering) Q = k f k i Q = Q x Q y z k.(α k.ϕ k.(α 2 i i α + α 2 f f ) ϕ 2 )/2 typically: (neutrons!) September 14, 2015 Folie 11 2π /Qx 1 20 µm 2 π / Qy nm
12 Plan Introduction: Nanoscience and Nanotechnology Method: Reflectivity, off-specular scattering and GISAS Specular reflectivity Measurement of neutron reflectivity Crystallography at mesoscopic length scales: GISAXS from a nanoparticle assembly on a surface Conclusion and outlook September 14, 2015 Folie 12
13 Wave equation in homogeneous medium. Schrödinger equation for the neutron wave function: Small Q values are probed; Potential of the homogeneous medium: Scattering length density: September 14, 2015 Folie 13
14 Optical index We receive: : wave vector in medium Index of refraction: is positive for most materials and of the order of 10-6 to 10-5 September 14, 2015 Folie 14
15 Solution for a sharp surface. Fresnel s formulas z General solution: Boundary conditions: l=0: vac. l=1: medium September 14, 2015 Folie 15
16 Solution for a sharp surface. Fresnel s formulas We receive: Reflectivity R and transmissivity T: Fresnel s formulas: September 14, 2015 Folie 16
17 Snell s law of refraction. Total external reflection Continuity of the wave vector components parallel to surface: Leads to Snell s law of refraction: Total external reflection for θ < θ c defined by: September 14, 2015 Folie 17
18 Total external reflection Normal components of the incoming and refracted wave vectors: Reflectivity and transmissivity: R = r 2 T = t 2 c α i Evanescent c α i Propagating wave September 14, 2015 Folie 18
19 Reflectivity from a layer on substrate Optical path length difference between beams reflected at surface and interface: Ni layer on Si substrate Distance between interference maxima: September 14, 2015 Folie 19
20 Reflectivity from a multilayer 10 Ni/Ti bilayers on Si ΔQ = 2π D ΔQ = 2π d September 14, 2015 Folie 20
21 Reflectivity from a supermirror FeCoV #100 TiN #100 FeCoV #99 FeCoV #3 TiN #3 FeCoV #2 TiN #2 FeCoV #1 TiN #1 Gd Glass nuclear sld. September 14, 2015 Folie 21
22 Reflectivity from a supermirror [FeCoV/TiN] 50 [FeCoV(6 nm)/tin( nm)] 50 With t FeCoV from 6 to nm t Ti Ti from 5.5 to nm September 14, 2015 Folie 22
23 Reflectivity from a supermirror: Application The S-shape supermirror-coated guide of JCNS Casemate wall (800 mm) Straight guide R=30m R=-30m Movable part of the ANSI shutter Trumpet α NL3 100 cm 1191 mm 2883 mm 3918 mm 2 mm to KWS-2 to KWS-1 to KWS-3 (10x50) mm 2 September 14, 2015 Folie 23
24 Roughness and interdiffusion z is a gaussian random variable with distribution function: Profile of refraction index between layers j and j+1: with: September 14, 2015 Folie 24
25 Roughness and interdiffusion Reflectivity from such a surface obtained by averaging: : root mean squared deviation from the nominal position of the interface Si substrate Ni on Si September 14, 2015 Folie 25
26 Plan Introduction: Nanoscience and Nanotechnology Method: Reflectivity, off-specular scattering and GISAS Specular reflectivity Measurement of neutron reflectivity Crystallography at mesoscopic length scales: GISAXS from a nanoparticle assembly on a surface Conclusion and outlook Aim : Measure R as a function of in order to determine the scattering length density profile September 14, 2015 Folie 26
27 Monochromatic instrument Fixed λ, varying θ MARIA of the JCNS at FRM-II September 14, 2015 Folie 27 Courtesy of S. Mattauch, JCNS
28 Time-of-flight instrument Fixed θ, varying λ λ encoded by time of flight t over distance L: Magnetism reflectometer of the SNS: September 14, 2015 Folie 28 Courtesy of V. Lauter, ORNL
29 Resolution Aim: Maximize intensity on sample by relaxing resolution in Q Dispersion in wave vector transfer: 400 Å thick Ni layer on Si substrate (Monochromatic instrument) September 14, 2015 Folie 29
30 Plan Introduction: Nanoscience and Nanotechnology Method: Reflectivity, off-specular scattering and GISAS Specular reflectivity Measurement of neutron reflectivity Crystallography at mesoscopic length scales: GISAXS from a nanoparticle assembly on a surface Conclusion and outlook September 14, 2015 Folie 30
31 Crystallography at the nanoscale: GISAXS from nanoparticle assemblies Self assembled nanoparticles: materials with new functions In plane structure by surface sensitive techniques: SEM, AFM Full 3D structure by GISAXS S. Disch, E. Wetterskog et al. Nano Letters 11, 1651 (2011) September 14, 2015 Folie 31
32 In-plane 2D Structure 100 nm 5 nm Nanoparticles: Iron oxide Single crystalline Truncated cubes Mesocrystals: Obtained by solvent evaporation in magnetic field Height: 300 nm Lateral: µm s 10 µm Square lattice with a = 13.10(5) nm Whole sample film: 2D powder S. Disch, E. Wetterskog et al. Nano Letters 11, 1651 (2011) September 14, 2015 Folie 32
33 Possible 3D structures Five different cubic and tetragonal Bravais lattices are possible: sc, st, bcc, bct and fcc bcc and fcc are excluded from packing and geometrical considerations S. Disch, E. Wetterskog et al. Nano Letters 11, 1651 (2011) September 14, 2015 Folie 33
34 3D structure determined by GISAXS: bct 100 nm 10l Extinction rule: h+k+l = 2n Tetragonal lattice: (! 2 + * 4π 2 h 2 + k 2 + l $ Q z = k i,z + k c,z # & Q 2 a 2 c 2 y ± k 2 2 i,z k c,z " % September 14, 2015 )*,- Folie 34 C = 17.80(5) nm α c = l
35 Plan Introduction: Nanoscience and Nanotechnology Method: Reflectivity, off-specular scattering and GISAS Specular reflectivity Measurement of neutron reflectivity Crystallography at mesoscopic length scales: GISAXS from a nanoparticle assembly on a surface Conclusion and outlook September 14, 2015 Folie 35
36 Conclusion Reflectometry and grazing incidence scattering: depth-resolved investigation of the chemical (and magnetic) order parameter(s) and its (their) lateral fluctuations September 14, 2015 Folie 36
37 Outlook : GALAXI@JCNS High brillance laboratory GISAXS diffractometer Ulrich Rücker 1M Pilatus from Dectris Metaljet from Bruker AXS Flux: 10 9 ph/mm 2 /s September 14, 2015 Folie 37
38 Thank you for your attention September 14, 2015 Folie 38
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