Color-allowed bottom baryon to 
s
-wave and 
p
-wave charmed baryon nonleptonic decays

We try to understand the strangeness changing nonleptonic decays of kaons, hyperons, and the Ω− particle in terms of the modern, renormalized weak Hamiltonian expressed as a sum of four-quark Wilson operators, including the so-called penguin operators c5O5 and c6O6 arising from gluon radiative corrections. It is found that these decays, including the long-standing s-wave/p-wave puzzle in hyperon decays, can be understood if the Wilson coefficient [Formula: see text] has a sign opposite to that obtained from short-distance perturbative quantum chromodynamics calculations and has an effective value such that [Formula: see text].

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Color-allowed bottom baryon to charmed baryon nonleptonic decays

Physical Review D ◽

10.1103/physrevd.99.014023 ◽

2019 ◽

Vol 99 (1) ◽

Cited By ~ 12

Author(s):

Chun-Khiang Chua

Keyword(s):

Charmed Baryon ◽

Nonleptonic Decays ◽

Bottom Baryon

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ON NONLEPTONIC DECAYS OF THE Λ0-HYPERON IN THE EFFECTIVE QUARK MODEL WITH CHIRAL U(3)×U(3) SYMMETRY

International Journal of Modern Physics A ◽

10.1142/s0217751x07036373 ◽

2007 ◽

Vol 22 (10) ◽

pp. 1835-1847 ◽

Cited By ~ 1

Author(s):

A. YA. BERDNIKOV ◽

YA. A. BERDNIKOV ◽

M. FABER ◽

A. N. IVANOV ◽

V. A. IVANOVA ◽

...

Keyword(s):

Experimental Data ◽

Quark Model ◽

Rest Frame ◽

Laboratory Frame ◽

Decay Rates ◽

P Wave ◽

Angular Distributions ◽

S Wave ◽

Nonleptonic Decays ◽

Theoretical Results

Within the effective quark model with chiral U (3) × U (3) symmetry we calculate the S-wave and P-wave amplitudes and the partial widths of the nonleptonic decays of the Λ0-hyperon, Λ0 → pπ- and Λ0 → nπ0. The theoretical results agree well with the experimental data. The angular distributions of the decay rates in dependence on the polarizations of baryons are analyzed both in the laboratory frame and in the rest frame of the Λ0-hyperon.

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Post-collisional mantle delamination in the Dinarides implied from staircases of Oligo-Miocene uplifted marine terraces

Scientific Reports ◽

10.1038/s41598-021-81561-5 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Philipp Balling ◽

Christoph Grützner ◽

Bruno Tomljenović ◽

Wim Spakman ◽

Kamil Ustaszewski

Keyword(s):

Balkan Peninsula ◽

Receiver Functions ◽

P Wave ◽

S Wave ◽

Slab Geometry ◽

Surface Uplift ◽

River Incision ◽

Marine Terraces ◽

Convergence System ◽

Internal Dinarides

AbstractThe Dinarides fold-thrust belt on the Balkan Peninsula resulted from convergence between the Adriatic and Eurasian plates since Mid-Jurassic times. Under the Dinarides, S-wave receiver functions, P-wave tomographic models, and shear-wave splitting data show anomalously thin lithosphere overlying a short down-flexed slab geometry. This geometry suggests a delamination of Adriatic lithosphere. Here, we link the evolution of this continental convergence system to hitherto unreported sets of extensively uplifted Oligocene–Miocene (28–17 Ma) marine terraces preserved at elevations of up to 600 m along the Dinaric coastal range. River incision on either side of the Mediterranean-Black Sea drainage divide is comparable to the amounts of terrace uplift. The preservation of the uplifted terraces implies that the most External Dinarides did not experience substantial deformation other than surface uplift in the Neogene. These observations and the contemporaneous emplacement of igneous rocks (33–22 Ma) in the internal Dinarides suggest that the Oligo-Miocene orogen-wide uplift was driven by post-break-off delamination of the Adriatic lithospheric mantle, this was followed by isostatic readjustment of the remaining crust. Our study details how lithospheric delamination exerts an important control on crustal deformation and that its crustal signature and geomorphic imprint can be preserved for millions of years.

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S-wave experiments for the exploration of a deep geothermal carbonate reservoir in the German Molasse Basin

Geothermal Energy ◽

10.1186/s40517-021-00189-w ◽

2021 ◽

Vol 9 (1) ◽

Author(s):

Britta Wawerzinek ◽

Hermann Buness ◽

Hartwig von Hartmann ◽

David C. Tanner

Keyword(s):

Upper Jurassic ◽

Carbonate Reservoir ◽

P Wave ◽

Seismic Survey ◽

Seismic Exploration ◽

Molasse Basin ◽

S Wave ◽

Induced Earthquakes ◽

Conversion Point ◽

Facies Classification

AbstractThere are many successful geothermal projects that exploit the Upper Jurassic aquifer at 2–3 km depth in the German Molasse Basin. However, up to now, only P-wave seismic exploration has been carried out. In an experiment in the Greater Munich area, we recorded S-waves that were generated by the conventional P-wave seismic survey, using 3C receivers. From this, we built a 3D volume of P- to S-converted (PS) waves using the asymptotic conversion point approach. By combining the P-volume and the resulting PS-seismic volume, we were able to derive the spatial distribution of the vp/vs ratio of both the Molasse overburden and the Upper Jurassic reservoir. We found that the vp/vs ratios for the Molasse units range from 2.0 to 2.3 with a median of 2.15, which is much higher than previously assumed. This raises the depth of hypocenters of induced earthquakes in surrounding geothermal wells. The vp/vs ratios found in the Upper Jurassic vary laterally between 1.5 and 2.2. Since no boreholes are available for verification, we test our results against an independently derived facies classification of the conventional 3D seismic volume and found it correlates well. Furthermore, we see that low vp/vs ratios correlate with high vp and vs velocities. We interpret the latter as dolomitized rocks, which are connected with enhanced permeability in the reservoir. We conclude that 3C registration of conventional P-wave surveys is worthwhile.

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Inverse design of layered periodic wave barriers based on deep learning

Proceedings of the Institution of Mechanical Engineers Part L Journal of Materials Design and Applications ◽

10.1177/14644207211016886 ◽

2021 ◽

pp. 146442072110168

Author(s):

Chen-Xu Liu ◽

Gui-Lan Yu

Keyword(s):

Deep Learning ◽

Activation Function ◽

Periodic Wave ◽

P Wave ◽

Soil Parameters ◽

S Wave ◽

Output Frequency ◽

Great Generality ◽

Typical Range ◽

Deep Learning Model

This study presents an approach based on deep learning to design layered periodic wave barriers with consideration of typical range of soil parameters. Three cases are considered where P wave and S wave exist separately or simultaneously. The deep learning model is composed of an autoencoder with a pretrained decoder which has three branches to output frequency attenuation domains for three different cases. A periodic activation function is used to improve the design accuracy, and condition variables are applied in the code layer of the autoencoder to meet the requirements of practical multi working conditions. Forty thousand sets of data are generated to train, validate, and test the model, and the designed results are highly consistent with the targets. The presented approach has great generality, feasibility, rapidity, and accuracy on designing layered periodic wave barriers which exhibit good performance in wave suppression in targeted frequency range.

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P- and S-wave attenuation logs from monopole sonic data

Geophysics ◽

10.1190/1.1444774 ◽

2000 ◽

Vol 65 (3) ◽

pp. 755-765 ◽

Cited By ~ 37

Author(s):

Xinhua Sun ◽

Xiaoming Tang ◽

C. H. (Arthur) Cheng ◽

L. Neil Frazer

Keyword(s):

Wave Attenuation ◽

Fluid Velocity ◽

P Wave ◽

Reservoir Rock ◽

Rock Properties ◽

S Wave ◽

Intrinsic Attenuation ◽

Modified Method ◽

Receiver Array ◽

Attenuation Profiles

In this paper, a modification of an existing method for estimating relative P-wave attenuation is proposed. By generating synthetic waveforms without attenuation, the variation of geometrical spreading related to changes in formation properties with depth can be accounted for. With the modified method, reliable P- and S-wave attenuation logs can be extracted from monopole array acoustic waveform log data. Synthetic tests show that the P- and S-wave attenuation values estimated from synthetic waveforms agree well with their respective model values. In‐situ P- and S-wave attenuation profiles provide valuable information about reservoir rock properties. Field data processing results show that this method gives robust estimates of intrinsic attenuation. The attenuation profiles calculated independently from each waveform of an eight‐receiver array are consistent with one another. In fast formations where S-wave velocity exceeds the borehole fluid velocity, both P-wave attenuation ([Formula: see text]) and S-wave attenuation ([Formula: see text]) profiles can be obtained. P- and S-wave attenuation profiles and their comparisons are presented for three reservoirs. Their correlations with formation lithology, permeability, and fractures are also presented.

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Fracture detection using P-wave and S-wave vertical seismic profiling at The Geysers

Geophysics ◽

10.1190/1.1442401 ◽

1988 ◽

Vol 53 (1) ◽

pp. 76-84 ◽

Cited By ~ 44

Author(s):

E. L. Majer ◽

T. V. McEvilly ◽

F. S. Eastwood ◽

L. R. Myer

Keyword(s):

Fractured Rock ◽

Geothermal Field ◽

P Wave ◽

Velocity Variation ◽

Fracture Detection ◽

S Wave ◽

Fracture Geometry ◽

Seismic Profiling ◽

Vertical Seismic Profiling ◽

The Geysers

In a pilot vertical seismic profiling study, P-wave and cross‐polarized S-wave vibrators were used to investigate the potential utility of shear‐wave anisotropy measurements in characterizing a fractured rock mass. The caprock at The Geysers geothermal field was found to exhibit about an 11 percent velocity variation between SH-waves and SV-waves generated by rotating the S-wave vibrator orientation to two orthogonal polarizations for each survey level in the well. The effect is generally consistent with the equivalent anisotropy expected from the known fracture geometry.

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Color-allowed bottom baryon to s -wave and p -wave charmed baryon nonleptonic decays