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Moisture and density (MAD) measured on IODP Hole 317-U1351B
Geocode = Depth CSF-A (m).MAD data are acquired on ~10 mL sediment or rock subsamples by measuring three out of four material parameters: wet (saturated) mass and/or volume, and... -
Moisture and density (MAD) measured on IODP Hole 317-U1351A
Geocode = Depth CSF-A (m).MAD data are acquired on ~10 mL sediment or rock subsamples by measuring three out of four material parameters: wet (saturated) mass and/or volume, and... -
Copy of: The Effect of Pressure on the Crystal Structure Titanium Tetrachloride
At ambient pressure and temperature TiCl4 is a fuming yellow liquid. On cooling it forma a solid composed of essentially isolated tetrahedral molecules; the same structure is... -
Lattice vibrations of hydrogen impurities in a solid neon matrix
In recent incoherent inelastic neutron scattering experiments we have shown that the anharmonic single-particle dynamics of H2 can be measured with high precision in quantum... -
How molecular solids prepare for phase transitions: The phase transition in o...
Oxalyl chloride, which is a liquid at RT, forms a disordered phase (I) on cooling to 260 K. This phase is unstable with respect to an ordered phase (II) below 250 K, but in... -
Towards a validated standard method for performing DFT calculations of muoniu...
In this proposal we want to address the issue of the identification of the different muonium adducts that are possible in Alq3 without any crystallographic constraints, and... -
How molecular solids prepare for phase transitions: The phase transition in o...
Oxalyl chloride (mpt. 260 K), forms an ordered phase at low temperature, but a disordered phase between 250 K and the melting point. In previous beamtime we aimed to carry out... -
Structural insights into crude oil asphaltenes II: Correlating molecular desc...
Asphaltenes are a complex and problematic fraction of crude oil that can precipitate, block pipeline and foul refineryequipment. Asphaltenes have a high proportion of aromatic... -
Moisture and density (MAD) measured on IODP Hole 315-C0001E
Geocode = [m CSF-A] Top Core depth (below sea floor) -
Moisture and density (MAD) measured on IODP Hole 314-C0001B
Geocode = [m CSF-A] Top Core depth (below sea floor) -
Moisture and density (MAD) measured on IODP Hole 315-C0001F
Geocode = [m CSF-A] Top Core depth (below sea floor) -
Moisture and density (MAD) measured on IODP Hole 316-C0004D
Geocode = [m CSF-A] Top Core depth (below sea floor) -
Moisture and density (MAD) measured on IODP Hole 315-C0002B
Geocode = [m CSF-A] Top Core depth (below sea floor) -
Moisture and density (MAD) measured on IODP Hole 315-C0002D
Geocode = [m CSF-A] Top Core depth (below sea floor) -
Moisture and density (MAD) measured on IODP Hole 316-C0004C
Geocode = [m CSF-A] Top Core depth (below sea floor) -
Moisture and density (MAD) measured on IODP Hole 316-C0006C
Geocode = [m CSF-A] Top Core depth (below sea floor) -
Moisture and density (MAD) measured on IODP Hole 316-C0006D
Geocode = [m CSF-A] Top Core depth (below sea floor) -
Moisture and density (MAD) measured on IODP Hole 316-C0006E
Geocode = [m CSF-A] Top Core depth (below sea floor) -
Moisture and density (MAD) measured on IODP Hole 315-C0001H
Geocode = [m CSF-A] Top Core depth (below sea floor) -
Moisture and density (MAD) measured on IODP Hole 316-C0006F
Geocode = [m CSF-A] Top Core depth (below sea floor)
