Presentation is loading. Please wait.

Presentation is loading. Please wait.

2003 Summer School NCNR, NIST Gaithersburg, MD 20890 Neutron Spin Echo Spectroscopy (NSE) Group A Alina Visinoiu Erick Lawson Gokhan Caliskan Jose Rodriguez.

Published byLillian George Modified over 8 years ago

Similar presentations

Presentation on theme: "2003 Summer School NCNR, NIST Gaithersburg, MD 20890 Neutron Spin Echo Spectroscopy (NSE) Group A Alina Visinoiu Erick Lawson Gokhan Caliskan Jose Rodriguez."— Presentation transcript:

1 2003 Summer School NCNR, NIST Gaithersburg, MD 20890 Neutron Spin Echo Spectroscopy (NSE) Group A Alina Visinoiu Erick Lawson Gokhan Caliskan Jose Rodriguez Kapil Gupta Martin Sulic Mike Lewis Tessema Xabiher

2 Why NSE? H2OH2O C 10 H 22 Surfactant Surfactant film Goals: Spontaneous curvature Bending elasticity Saddle splay elasticity Diffusion: NMR Dynamic light scattering (t scale > 100 ns) Spontaneous curvature, bending elasticity, saddle splay elasticity shape fluctuations NSE (t scale ~ 1 - 10 ns) Diffusion Shape fluctuations are in very short time and length scales!

3 Experimental Hydrophobic tail Hydrophilic head Surfactant molecule AOT Experiment I Diffusion of AOT micelles in C 10 D 22 (5.4 % vol. fraction) Experiment II Shape fluctuations in AOT/D 2 O/C 10 D 22 microemulsion (5.4/4.6/90 % vol. fraction) Inverse microemulsion droplet D2OD2O C 10 D 22 AOT Inverse spherical micelle C 10 D 22 ~ 25 AOTTranslational diffusion Translational diffusion Shape fluctuations

4 Principle of NSE n BB sample elastic scattering inelastic scattering Angle 0   0±0± Neutrons posses spin and magnetic moment. They precess in magnetic fields with the Larmor frequency that depends on the strangth of the magnetic field only. (g =1.83  10 8 s -1 T -1 ) B LL S N !

5 Summary of data analysis Experiment I AOT micelles in C 10 D 22 Experiment II AOT/D 2 O/C 10 D 22 microemulsion Goal: Calculate the bending modulus of elasticity Calculate the frequency of deformation

6 Echo Point determination Measured echo point for 13 fourier time points at three Q values (.05,.085,.12) Echo Point:- Phase current where the magnetic field integral in the two magnets are balanced.

7 Results Faster decay at high Q

8 Results Stokes-Einstein Relationship: D = (1-  )k B T/6  R h, R micelle =1.6nm R emulsion = 3.4nm Values are in good agreement with the SANS Data.

9 Results Q independent Q dependent Damping frequency ( 2 ) (Hz) 1.45e+7 Amplitude (a 2 ).0406 Mean radius (A 0 ) 34 D trans ( A 2 /ns) 4.24 Fitting model

10 Bending modulus 2 - damping frequency - amplitude of deformation p 2 - size polydispersity, measured by SANS k=.1k B T Fluctuations are thermal in origin

11 Summary Energy resolution is very high (10 -5 meV) Measures the Intermediate scattering function(I(Q,t)) Provides information on the Brownian dynamics of the particle Very small shape fluctuations can be characterized Acknowledgements NIST/NCNR staff NSF

Download ppt "2003 Summer School NCNR, NIST Gaithersburg, MD 20890 Neutron Spin Echo Spectroscopy (NSE) Group A Alina Visinoiu Erick Lawson Gokhan Caliskan Jose Rodriguez."

Similar presentations

I0 I Probability Neutron Attenuation X Recall t = N t

I0 I Probability Neutron Attenuation X Recall t = N t
MR TRACKING METHODS Dr. Dan Gamliel, Dept. of Medical Physics,

MR TRACKING METHODS Dr. Dan Gamliel, Dept. of Medical Physics,
Introduction to DYNAMIC LIGHT SCATTERING (DLS) Christer Svanberg or PHOTON CORRELATION SPECTROSCOPY (PCS)

Introduction to DYNAMIC LIGHT SCATTERING (DLS) Christer Svanberg or PHOTON CORRELATION SPECTROSCOPY (PCS)
DWS and µ-rheology 1 Diffusing Wave Spectroscopy and µ- rheology: when photons probe mechanical properties Luca Cipelletti LCVN UMR 5587, Université Montpellier.

DWS and µ-rheology 1 Diffusing Wave Spectroscopy and µ- rheology: when photons probe mechanical properties Luca Cipelletti LCVN UMR 5587, Université Montpellier.
1 Lecture 11 Emulsions and Microemulsions. The dielectric properties of heterogeneous substances. Polarization of double layer, Polarization of Maxwell.

1 Lecture 11 Emulsions and Microemulsions. The dielectric properties of heterogeneous substances. Polarization of double layer, Polarization of Maxwell.
Neutron Spin Echo Spectroscopy (NSE) Group B Ilir Zoto Tao Hong Yanmei Lan Nikolaos Daniilidis Sonoko Kanai Mitra Yoonesi Zhaohui Sun 2003 Summer School.

Neutron Spin Echo Spectroscopy (NSE) Group B Ilir Zoto Tao Hong Yanmei Lan Nikolaos Daniilidis Sonoko Kanai Mitra Yoonesi Zhaohui Sun 2003 Summer School.
4-1 Radiant Energy. Waves  Light travels in Waves similar to ocean waves  Light waves are electromagnetic and consist of an electric and magnetic fields.

4-1 Radiant Energy. Waves  Light travels in Waves similar to ocean waves  Light waves are electromagnetic and consist of an electric and magnetic fields.
NMR Spectroscopy Part I. Origin of NMR. Nuclei in Magnetic Field Nucleus rotate about an axis -- spin Nucleus bears a charge, its spin gives rise to a.

NMR Spectroscopy Part I. Origin of NMR. Nuclei in Magnetic Field Nucleus rotate about an axis -- spin Nucleus bears a charge, its spin gives rise to a.
MRI. Magnetic Resonance 1.Principle first observed in 1946 2.Used for spectroscopy and imaging 3.Imaging techniques are a form of tomography, where slices.

MRI. Magnetic Resonance 1.Principle first observed in Used for spectroscopy and imaging 3.Imaging techniques are a form of tomography, where slices.
Optical Tweezers F scatt F grad 1. Velocity autocorrelation function from the Langevin model kinetic property property of equilibrium fluctuations For.

Optical Tweezers F scatt F grad 1. Velocity autocorrelation function from the Langevin model kinetic property property of equilibrium fluctuations For.
Chem. 133 – 5/7 Lecture. Announcements I Exam 3 on Tuesday (will give summary of material to know later) Format will be similar to other exams I will.

Chem. 133 – 5/7 Lecture. Announcements I Exam 3 on Tuesday (will give summary of material to know later) Format will be similar to other exams I will.
Structure Determination by NMR CHY 431 Biological Chemistry Karl D. Bishop, Ph.D. Lecture 1 - Introduction to NMR Lecture 2 - 2D NMR, resonance assignments.

Structure Determination by NMR CHY 431 Biological Chemistry Karl D. Bishop, Ph.D. Lecture 1 - Introduction to NMR Lecture 2 - 2D NMR, resonance assignments.
Nanoparticles Characterization: Measurement of the particles size by the PCS technique MSc. Priscyla D. Marcato Dr. Nelson Durán.

Nanoparticles Characterization: Measurement of the particles size by the PCS technique MSc. Priscyla D. Marcato Dr. Nelson Durán.
Nuclear Magnetic Resonance Spectrometry Chap 19. Absorption in CW Experiments Energy of precessing particle E = -μ z B o = -μ B o cos θ When an RF photon.

Nuclear Magnetic Resonance Spectrometry Chap 19. Absorption in CW Experiments Energy of precessing particle E = -μ z B o = -μ B o cos θ When an RF photon.
Basic Measurements: What do we want to measure? Prof. Robin D. Erbacher University of California, Davis References: R. Fernow, Introduction to Experimental.

Basic Measurements: What do we want to measure? Prof. Robin D. Erbacher University of California, Davis References: R. Fernow, Introduction to Experimental.
Introduction to PHOTON CORRELATION SPECTROSCOPY

Introduction to PHOTON CORRELATION SPECTROSCOPY
Basics of Magnetic Resonance Imaging

Basics of Magnetic Resonance Imaging
Emulsions and Microemulsions

Emulsions and Microemulsions
Lecture 17: Lipid Vesicles and Membranes. What did we cover in the last lecture? Amphiphilic molecules contain a hydrophobic head group and hydrophobic.

Lecture 17: Lipid Vesicles and Membranes. What did we cover in the last lecture? Amphiphilic molecules contain a hydrophobic head group and hydrophobic.
Coagulation - definitions

Coagulation - definitions

Similar presentations

Ads by Google