- Page 1: Member of the Helmholtz Association
- Page 5 and 6: Bibliographic information published
- Page 8 and 9: ________________________ PUMA Therm
- Page 10 and 11: PUMA 3 1. Introduction Excitations
- Page 12 and 13: PUMA 5 Fig.1 Real (left) and recipr
- Page 14 and 15: PUMA 7 4. Triple Axis Spectrometer
- Page 16 and 17: PUMA 9 Components Axis PUMAs notati
- Page 18 and 19: PUMA 11 a) PG Analyzer b) Soller co
- Page 20 and 21: PUMA 13 References [1] Ch. Kittel,
- Page 22 and 23: ________________________ SPODI High
- Page 24 and 25: POWDER DIFFRACTOMETER SPODI 3 1. Ap
- Page 26 and 27: POWDER DIFFRACTOMETER SPODI 5 T ( Q
- Page 28 and 29: POWDER DIFFRACTOMETER SPODI 7 Figur
- Page 30 and 31: POWDER DIFFRACTOMETER SPODI 9 Figur
- Page 32 and 33: POWDER DIFFRACTOMETER SPODI 11 3. I
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- Page 36 and 37: POWDER DIFFRACTOMETER SPODI 15 5. C
- Page 38 and 39: POWDER DIFFRACTOMETER SPODI 17 6. S
- Page 40 and 41: POWDER DIFFRACTOMETER SPODI 19 Typi
- Page 42 and 43: POWDER DIFFRACTOMETER SPODI 21 Pb 2
- Page 44 and 45: POWDER DIFFRACTOMETER SPODI 23 Expe
- Page 46 and 47: ________________________ HEiDi Hot
- Page 48 and 49: HEiDi 3 1 Introduction Many propert
- Page 50 and 51: HEiDi 5 3 Structure Determination w
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HEiDi 7 The scattering factor F is
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HEiDi 9 The linear absorption coeff
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HEiDi 11 To make sure the comparisa
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HEiDi 13 Fig. 7 left: tetragonal HT
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HEiDi 15 peaks of a (hkl) reflex gi
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HEiDi 17 6 Experiment Procedure Dur
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HEiDi 19 6.2 Sequence of measuremen
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HEiDi 21 5. Determine the average t
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HEiDi 23 Appendix (Tables and space
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HEiDi 25
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HEiDi 27
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HEiDi 29
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HEiDi 31 Contact ������
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2 J. Wuttke Contents 1 Introduction
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4 J. Wuttke Fig. 1: Rotor of a mech
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6 J. Wuttke NL6a shutter velocity s
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8 J. Wuttke S (q,ω) (μeV -1 ) 1 0
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10 J. Wuttke methyl group rotation
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12 J. Wuttke 11. Calculate the mome
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14 J. Wuttke Contact SPHERES Phone:
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2 Y. Su Contents 1 Introduction ...
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4 Y. Su DNS has a number of unique
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6 Y. Su community for the separatio
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8 Y. Su 4 Experiment Procedure and
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10 Y. Su References [1] W. Schweika
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________________________ J-NSE Neut
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J-NSE 3 1 Introduction Aim of the e
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J-NSE 5 The scattering vector Q is
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J-NSE 7 S(Q,t) 1.0 0.8 0.6 0.4 0.2
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J-NSE 9 3.2 Zimm dynamics Polymers
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J-NSE 11 5.2 Data reduction Each Fo
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J-NSE 13 References [1] F. Mezei, e
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KWS-1 & KWS-2 Small Angle Neutron S
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KWS-1 & KWS-2 3 Fig. 1: Representat
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KWS-1 & KWS-2 5 mass of the protein
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KWS-1 & KWS-2 7 Fig. 4: Guinier plo
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KWS-1 & KWS-2 9 Contact KWS-1 & KWS
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2 Vitaliy Pipich Contents 1� Intr
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4 Vitaliy Pipich 1.2 m long, 0.12 m
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6 Vitaliy Pipich extract informatio
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8 Vitaliy Pipich c) the scattering
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10 Vitaliy Pipich Contact ���
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2 W. Häußler Contents 1 Introduct
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4 W. Häußler Figure 1: Basic prin
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6 W. Häußler ϕ(v) = ϕ1 (v) +ϕ
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8 W. Häußler rf coil. Brf points
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10 W. Häußler 4 RESEDA 4.1 The in
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12 W. Häußler 4. Understand the f
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S. Mattauch and U. Rücker Jülich
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TREFF 3 Fig. 1: Sketch of the refle
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TREFF 5 with the neutron beam we wi
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TREFF 7 References Your lecture boo
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________________________ TOFTOF Tim
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TOFTOF 3 Fig. 1: Neutron time-of-fl
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TOFTOF 5 � � � Ë�ÑÔÐ�
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TOFTOF 7 nuclide / element σcoh (b
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TOFTOF 9 Fig. 5: Left: Pair correla
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TOFTOF 11 Alkanes are rather simple
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TOFTOF 13 Fig. 6: Left: Neutron dif
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TOFTOF 15 Q = | � Q| ΔE = Ef −
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TOFTOF 17 Contact TOFTOF Phone: 089
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Schriften des Forschungszentrums J
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Schriften des Forschungszentrums J
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Schlüsseltechnologien / Key Techno