1,311 to 1,320 of 12,413 Results
Oct 23, 2023 - University of Bergen
Mosland, Eivind Nag; Lunde, Per; Kocbach, Jan, 2023, "Replication Data for: Finite element-based diffraction correction for piezoelectric transducers accounting for diffraction at transmission, propagation, and reception", https://doi.org/10.18710/ANAN9E, DataverseNO, V1
This dataset contains modelled diffraction corrections for an example ultrasonic transmit-receive measurement system with piezoelectric transducers, and the underlying raw data used to calculate these diffraction corrections. Three different diffraction correction models are used: the finite element diffraction correction model (FEDC), the simplifi... |
Plain Text - 6.1 KB -
MD5: e5a0c7b6b85bb879267aa6bf645deb2a
ReadMe |
Network Common Data Form - 41.9 KB -
MD5: fc560938e28fff25df91daf73fa61e3b
Deviations between the diffraction corrections for the transmitter's first radial mode as a function of distance, estimating the effect of model simplifications. This is the data used in Fig. 5 in the paper. |
Network Common Data Form - 313.4 KB -
MD5: 0831b16471bd161c8a7a373219c3865a
Diffraction corrections for L = 0.15 m and L = 0.75, as a function of frequency. This is the data used in Fig. 7 in the paper. |
Network Common Data Form - 41.4 KB -
MD5: 632a4aac3e2aa394bc8a747d4b330ae1
Diffraction corrections for the transmitter's first radial mode as a function of distance. This is the data used in Fig. 4 in the paper. |
Network Common Data Form - 77.2 KB -
MD5: 86c01235da299c2eb247094ecd0639ae
The system's voltage-to-voltage transfer function, modelled using the transmitter-medium-receiver FE model and filtered to extract direct arrival. For L = 0.15 m and L = 0.75, as a function of frequency. The data for L = 0.15 m is used in Fig. 6 in the paper. |
Plain Text - 1.3 KB -
MD5: 629f7878614b20532ee3d5bbd287d578
Complex-valued material data set for Pz27 used in the finite element simulations. |
Network Common Data Form - 732.1 KB -
MD5: 074a54e6e09dd58f5c223c470dd40489
FE modelled transfer functions, far-field free-field pressure, spatially averaged free-field pressure, and electrical impedance. Distances from 0.03 to 2 m and frequencies from 70.1 to 130 kHz. |
Network Common Data Form - 326.4 KB -
MD5: c3a55afae2987b824c42fe7e5cecf644
FE modelled transfer functions, far-field free-field pressure, spatially averaged free-field pressure, and electrical impedance. The distances 0.15 m and 0.75 m, and frequencies from 40.1 to 310 kHz. |
Oct 20, 2023 - UiT The Arctic University of Norway
Panieri, Giuliana; Argentino, Claudio; Savini, Alessandra, 2023, "Replication data for: An Arctic natural oil seep investigated from space to the seafloor", https://doi.org/10.18710/65WIJO, DataverseNO, V1
Prins Karls Foreland is a small and elongated island on the western flank of the Svalbard archipelago. It belongs to the system of complex host and graben structures of the West-Spitsbergen fold-and-thrust belt. Intense gas flaring and oil slicks have been observed at this site. Within the scope of the research cruise AKMA 1 (CAGE21-1) under the he... |
