Poster exhibition room: Linnea/Svea
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Poster session Abstract # |
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1 |
G. Simutis, High Pressure Research at SINQ. |
23 |
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2 |
M. Cain, In Situ X-Ray Diffraction Studies of Stress-Induced Transitions in Single Crystal Piezoelectrics – Development of New Stress Facility. |
25 |
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3 |
N. Belkhier and C. Payre, A 1 GPa kit for all neutron users. |
26 |
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4 |
V. Joyet and C. Payre, Neutron diffraction above 20 GPa and below 100 mK. |
27 |
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5 |
N. Belkhier and E. Leliévre-Berna, A new T-gradient monochromator for IN13. |
28 |
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6 |
M.-H. Baurand, E. Bourgeat-Lami, and Eric X. Tonon, The ultracold neutron source SuperSUN. |
29 |
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7 |
M. Bartkowiak, Nifty Tricks with Dilution Sticks. |
33 |
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8 |
G. Ruland, Automated Gas Supply and Analysis Setup for Operando X-Ray Investigations of Catalytic Processes. |
37 |
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9 |
M. Ishikado, Present Status of the Cryogenic and Magnet Sample Environment at the J-PARC MLF. |
39 |
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10 |
M. Watanabe, Pulsed Magnet System at MLF in J-PARC. |
41 |
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11 |
Pulsed Magnetic Fields at Bessy II. |
45 |
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12 |
S. Gladchenko, Automatic Liquid Helium and Nitrogen Refill System. |
47 |
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13 |
O. Kirichek, Expanding Temperature Range of Neutron Powder Diffraction Experiments Using Weak Thermal Link. |
48 |
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14 |
Regina Biller, A custom designed cryogenic free Adiabatic Demagnetization Refrigerator (ADR) for ultra low temperature experiments at MLZ. |
49 |
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15 |
O. Kirichek, Ultra Low Temperature Noise Thermometry and its Applications at ISIS Neutron and Muon Source. |
50 |
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16 |
P. McIntyre, High Temperature Sample Environment Review at the ISIS Facility. |
51 |
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17 |
W. Bradbury, The ISIS Insert. |
52 |
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18 |
T. Sherline, New Belt Driven Sample Changer for a 100 mm Top Loading CCR. |
54 |
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19 |
B. Klemke, Helium Management at HZB. |
56 |
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20 |
H. Thiel, Multipurpose Cryo-Instrumentation for In-Situ Time-Resolved X-Ray Imgaging and Spectroscopic Techniques. |
60 |
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21 |
M. Neeb, Nanopositioning Stages for X-Ray Microscopy and Tomography. |
63 |
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22 |
O. Zadorozhko, Low-Temperature Environment at European Spallation Source. |
64 |
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23 |
A. Mortazavi, Bulk Metallic Glass for High Pressure Gas Cells |
67 |
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24 |
H. Schneider, Humidity Cell and Other Chemistry and Softmatter Sample Environment Equipment at ESS. |
72 |
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25 |
H. Oliver, Cryobox Design and Commissioning. |
74 |
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26 |
H. Oliver, Delft Furnace Sample Holder Design and Commissioning. |
75 |
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27 |
F. Behrendt, operando cells for x-ray investigations in heterogenous catalysis. |
76 |
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28 |
L. Saxtrup, European Spallation Source High-Pressure Suite. |
77 |
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29 |
A. Buchner, News of Low-Temperature and High-Pressure Environments at FRM II. |
78 |
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30 |
S. Gerischer, Development of an Automatic Sample Changer for the Rock-IT Project. |
79 |
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31 |
A.T. Holmes, The European Spallation Source Magnet Suite. |
80 |
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32 |
R. Appio, An overview of the Time-Resolved Capabilities and Sample Modularity at CoSAXS. |
82 |
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33 |
N. Ekström, How Can We Benefit From the IoT Revolution When Creating a Modern and Efficient Sample Environment Control System? |
84 |
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34 |
A. Shumak, 4k Cryostat with Reduced Sample Can Temperature Gradients. |
91 |
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35 |
C. Tabata, Advanced Sample Environment for Neutron Scattering at JRR-3: A Cryogen-Free Horizontal Magnetic Field System. |
94 |
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36 |
A. Hagelberg, Automated Pumping Carts. |
95 |
