Your search keyword '"F. Karakostas"' showing total 10 results

1. Improving Constraints on Planetary Interiors With PPs Receiver Functions

Author

D. Kim, V. Lekić, J. C. E. Irving, N. Schmerr, B. Knapmeyer‐Endrun, R. Joshi, M. P. Panning, B. Tauzin, F. Karakostas, R. Maguire, Q. Huang, S. Ceylan, A. Khan, D. Giardini, M. A. Wieczorek, P. Lognonné, and W. B. Banerdt

Published

2021

2. A New Crater Near Insight: Implications for Seismic Impact Detectability on Mars

Author

I. J. Daubar, P. Lognonné, N. A. Teanby, G. S. Collins, J. Clinton, S. Stähler, A. Spiga, F. Karakostas, S. Ceylan, M. Malin, A. S. McEwen, R. Maguire, C. Charalambous, K. Onodera, A. Lucas, L. Rolland, J. Vaubaillon, T. Kawamura, M. Böse, A. Horleston, M. Van Driel, J. Stevanović, K. Miljković, B. Fernando, Q. Huang, D. Giardini, C. S. Larmat, K. Leng, A. Rajšić, N. Schmerr, N. Wójcicka, T. Pike, J. Wookey, S. Rodriguez, R. Garcia, M. E. Banks, L. Margerin, L. Posiolova, and B. Banerdt

Subjects

Exobiology, Geosciences (General)

Abstract

A new 1.5 m diameter impact crater was discovered on Mars only ~40 km from the InSight lander. Context camera images constrained its formation between 21 February and 6 April 2019; follow-up High Resolution Imaging Science Experiment images resolved the crater. During this time period, three seismic events were identified in InSight data. We derive expected seismic signal characteristics and use them to evaluate each of the seismic events. However, none of them can definitively be associated with this source. Atmospheric perturbations are generally expected to be generated during impacts; however, in this case, no signal could be identified as related to the known impact. Using scaling relationships based on the terrestrial and lunar analogs and numerical modeling, we predict the amplitude, peak frequency, and duration of the seismic signal that would have emanated from this impact. The predicted amplitude falls near the lowest levels of the measured seismometer noise for the predicted frequency. Hence, it is not surprising this impact event was not positively identified in the seismic data. Finding this crater was a lucky event as its formation this close to InSight has a probability of only ~0.2, and the odds of capturing it in before and after images are extremely low. We revisit impact-seismic discriminators in light of real experience with a seismometer on the Martian surface. Using measured noise of the instrument, we revise our previous prediction of seismic impact detections downward, from ~a few to tens, to just ~2 per Earth year, still with an order of magnitude uncertainty.

Published

2020

3. Cooperative Self-Assembly Enables Two-Dimensional H-type Aggregation of a Sterically Crowded Perylene-Bisimide Dimer

Author

Pistolis, G. Petrakis, V.S. Kournoutas, F. Karakostas, N. Martinou, E. Efthimiadou, E.K. Fakis, M. Mavridis, I.M.

Abstract

Identifying the role of multiple cooperative supramolecular interactions and the working mechanism underlying the formation of sophisticated, well-defined self-assembled architectures is definitely a challenging and formidable task in understanding the complexity in chemical systems and engineering the properties of advanced materials. The topological design of multifunctional tectons, capable of self-organizing into patterned supramolecular assemblies comprising stacked aromatic molecules, is of particular importance because it can lead to the predictable emergence of controlled functions with tailored electronic properties. Herein, we provide spectroscopic, structural, and mechanistic insights on metal-ion-mediated self-assembly of a charged, amphiphilic perylene-bisimide (PBI) dimer S into two-dimensional (2D) arrays consisting of parallel columnar PBI stacks with a precise spatial arrangement and pattern behavior, using a readily accessible design strategy. The building block (S), a centrosymmetric PBI homodimer bearing a disulfonated trans-stilbene core, was designed to concurrently feature high complexation directionality with a strong binding affinity through multiple supramolecular interactions. In solvents that efficiently solvate PBI, e.g., chloroform, the zinc ion interacts strongly through electrostatic interactions with the negatively charged core of S, and with the πcloud of the stilbene moiety (cation-πinteractions) forming simple 1:1 adducts. In methanol, the findings manifest the efficient formation of well-defined aggregates with H-type excitonic coupling. A single-crystal X-ray structure reveals, despite the sterically crowded bay area of PBIs constituting S, an unprecedented pattern of 2D arrays comprising face-to-face, slipped π-stacked PBI interdimers that pack in parallel columns. This molecular arrangement explains the quenched fluorescence in solution, as well as the appearance of weak excimer-like fluorescence both in solution and crystals. The spectroscopic and structural findings converge to the conclusion that the development of aggregates in solution proceeds by a cooperative growth process driven by a collection of different supramolecular interactions, i.e., electrostatic (core of S), π-πstacking (terminal PBIs), and multiple C-H···π(bay substituents). A corresponding aggregation model fits satisfactorily the experimental data in solution and allows extracting the association constants and spectra of the equilibrated species. © Copyright © 2019 American Chemical Society.

Published

2019

4. Erratum to: An Investigation of the Mechanical Properties of Some Martian Regolith Simulants with Respect to the Surface Properties at the InSight Mission Landing Site

Author

Sharon Kedar, Pierre Delage, Emmanuel De Laure, Amine Dhemaied, Yu-Jun Cui, Ken Hurst, Philippe Lognonné, Malik Belmokhtar, Matthew P. Golombek, Jean-Claude Dupla, Bruce Banerdt, F. Karakostas, Géotechnique (cermes), Laboratoire Navier (navier umr 8205), Institut Français des Sciences et Technologies des Transports, de l'Aménagement et des Réseaux (IFSTTAR)-École des Ponts ParisTech (ENPC)-Centre National de la Recherche Scientifique (CNRS)-Institut Français des Sciences et Technologies des Transports, de l'Aménagement et des Réseaux (IFSTTAR)-École des Ponts ParisTech (ENPC)-Centre National de la Recherche Scientifique (CNRS), Institut de Physique du Globe de Paris (IPGP), Institut national des sciences de l'Univers (INSU - CNRS)-IPG PARIS-Université Paris Diderot - Paris 7 (UPD7)-Université de La Réunion (UR)-Centre National de la Recherche Scientifique (CNRS), Institut Français des Sciences et Technologies des Transports, de l'Aménagement et des Réseaux (IFSTTAR)-École des Ponts ParisTech (ENPC)-Centre National de la Recherche Scientifique (CNRS), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-IPG PARIS-Université Paris Diderot - Paris 7 (UPD7)-Université de La Réunion (UR)-Centre National de la Recherche Scientifique (CNRS), Jet Propulsion Laboratory (JPL), and NASA-California Institute of Technology (CALTECH)

Subjects

Martian, Seismometer, 010504 meteorology & atmospheric sciences, [SDU.ASTR]Sciences of the Universe [physics]/Astrophysics [astro-ph], Mars InSight mission Regolith simulants Density Mechanical properties Seismic velocity Elastic response, Isotropy, Extrapolation, [SDU.ASTR.EP]Sciences of the Universe [physics]/Astrophysics [astro-ph]/Earth and Planetary Astrophysics [astro-ph.EP], Mineralogy, Astronomy and Astrophysics, Mars Exploration Program, 01 natural sciences, Regolith, Oedometer test, Space and Planetary Science, [SDU]Sciences of the Universe [physics], 0103 physical sciences, Direct shear test, 010303 astronomy & astrophysics, Geology, 0105 earth and related environmental sciences

Abstract

In support of the InSight mission in which two instruments (the SEIS seismometer and the $\mbox{HP}^{3}$ heat flow probe) will interact directly with the regolith on the surface of Mars, a series of mechanical tests were conducted on three different regolith simulants to better understand the observations of the physical and mechanical parameters that will be derived from InSight. The mechanical data obtained were also compared to data on terrestrial sands. The density of the regolith strongly influences its mechanical properties, as determined from the data on terrestrial sands. The elastoplastic compression volume changes were investigated through oedometer tests that also provided estimates of possible changes in density with depth. The results of direct shear tests provided values of friction angles that were compared with that of a terrestrial sand, and an extrapolation to lower density provided a friction angle compatible with that estimated from previous observations on the surface of Mars. The importance of the contracting/dilating shear volume changes of sands on the dynamic penetration of the mole was determined, with penetration facilitated by the $\sim1.3~\mbox{Mg/m}^{3}$ density estimated at the landing site. Seismic velocities, measured by means of piezoelectric bender elements in triaxial specimens submitted to various isotropic confining stresses, show the importance of the confining stress, with lesser influence of density changes under compression. A power law relation of velocity as a function of confining stress with an exponent of 0.3 was identified from the tests, allowing an estimate of the surface seismic velocity of 150 m/s. The effect on the seismic velocity of a 10% proportion of rock in the regolith was also studied. These data will be compared with in situ data measured by InSight after landing.

Published

2017

5. Seismic detection of a deep mantle discontinuity within Mars by InSight.

Author

Huang Q, Schmerr NC, King SD, Kim D, Rivoldini A, Plesa AC, Samuel H, Maguire RR, Karakostas F, Lekić V, Charalambous C, Collinet M, Myhill R, Antonangeli D, Drilleau M, Bystricky M, Bollinger C, Michaut C, Gudkova T, Irving JCE, Horleston A, Fernando B, Leng K, Nissen-Meyer T, Bejina F, Bozdağ E, Beghein C, Waszek L, Siersch NC, Scholz JR, Davis PM, Lognonné P, Pinot B, Widmer-Schnidrig R, Panning MP, Smrekar SE, Spohn T, Pike WT, Giardini D, and Banerdt WB

Subjects

Earth, Planet, Iron, Minerals, Extraterrestrial Environment, Mars

Abstract

Constraining the thermal and compositional state of the mantle is crucial for deciphering the formation and evolution of Mars. Mineral physics predicts that Mars' deep mantle is demarcated by a seismic discontinuity arising from the pressure-induced phase transformation of the mineral olivine to its higher-pressure polymorphs, making the depth of this boundary sensitive to both mantle temperature and composition. Here, we report on the seismic detection of a midmantle discontinuity using the data collected by NASA's InSight Mission to Mars that matches the expected depth and sharpness of the postolivine transition. In five teleseismic events, we observed triplicated P and S waves and constrained the depth of this discontinuity to be 1,006 [Formula: see text] 40 km by modeling the triplicated waveforms. From this depth range, we infer a mantle potential temperature of 1,605 [Formula: see text] 100 K, a result consistent with a crust that is 10 to 15 times more enriched in heat-producing elements than the underlying mantle. Our waveform fits to the data indicate a broad gradient across the boundary, implying that the Martian mantle is more enriched in iron compared to Earth. Through modeling of thermochemical evolution of Mars, we observe that only two out of the five proposed composition models are compatible with the observed boundary depth. Our geodynamic simulations suggest that the Martian mantle was relatively cold 4.5 Gyr ago (1,720 to 1,860 K) and are consistent with a present-day surface heat flow of 21 to 24 mW/m 2 .

Published

2022

6. Scattering Attenuation of the Martian Interior through Coda Wave Analysis.

Author

Karakostas F, Schmerr N, Maguire R, Huang Q, Kim D, Lekic V, Margerin L, Nunn C, Menina S, Kawamura T, Lognonné P, Giardini D, and Banerdt B

Abstract

We investigate the scattering attenuation characteristics of the Martian crust and uppermost mantle to understand the structure of the Martian interior. We examine the energy decay of the spectral envelopes for 21 high-quality Martian seismic events from Sol 128 to Sol 500 of InSight operations. We use the model of Dainty et al. (1974b) to approximate the behavior of energy envelopes resulting from scattered wave propagation through a single diffusive layer over an elastic half-space. Using a grid search, we mapped the layer parameters that fit the observed InSight data envelopes. The single diffusive layer model provided better fits to the observed energy envelopes for High Frequency (HF) and Very High Frequency (VF) than for the Low Frequency (LF) and Broadband (BB) events. This result is consistent with the suggested source depths (Giardini et al., 2020) for these families of events and their expected interaction with a shallow scattering layer. The shapes of the observed data envelopes do not show a consistent pattern with event distance, suggesting that the diffusivity and scattering layer thickness is non-uniform in the vicinity of InSight at Mars. Given the consistency in the envelope shapes between HF and VF events across epicentral distances and the tradeoffs between the parameters that control scattering, the dimensions of the scattering layer remain unconstrained but require that scattering strength decreases with depth and that the rate of decay in scattering strength is fastest near the surface. This is generally consistent with the processes that would form scattering structures in planetary lithospheres., Competing Interests: CONFLICT OF INTEREST The authors acknowledge there are no conflicts of interest recorded.

Published

2021

7. Improving Constraints on Planetary Interiors With PPs Receiver Functions.

Author

Kim D, Lekić V, Irving JCE, Schmerr N, Knapmeyer-Endrun B, Joshi R, Panning MP, Tauzin B, Karakostas F, Maguire R, Huang Q, Ceylan S, Khan A, Giardini D, Wieczorek MA, Lognonné P, and Banerdt WB

Abstract

Seismological constraints obtained from receiver function (RF) analysis provide important information about the crust and mantle structure. Here, we explore the utility of the free-surface multiple of the P-wave (PP) and the corresponding conversions in RF analysis. Using earthquake records, we demonstrate the efficacy of PPs-RFs before illustrating how they become especially useful when limited data is available in typical planetary missions. Using a transdimensional hierarchical Bayesian deconvolution approach, we compute robust P-to-S (Ps)- and PPs-RFs with InSight recordings of five marsquakes. Our Ps-RF results verify the direct Ps converted phases reported by previous RF analyses with increased coherence and reveal other phases including the primary multiple reverberating within the uppermost layer of the Martian crust. Unlike the Ps-RFs, our PPs-RFs lack an arrival at 7.2 s lag time. Whereas Ps-RFs on Mars could be equally well fit by a two- or three-layer crust, synthetic modeling shows that the disappearance of the 7.2 s phase requires a three-layer crust, and is highly sensitive to velocity and thickness of intra-crustal layers. We show that a three-layer crust is also preferred by S-to-P (Sp)-RFs. While the deepest interface of the three-layer crust represents the crust-mantle interface beneath the InSight landing site, the other two interfaces at shallower depths could represent a sharp transition between either fractured and unfractured materials or thick basaltic flows and pre-existing crustal materials. PPs-RFs can provide complementary constraints and maximize the extraction of information about crustal structure in data-constrained circumstances such as planetary missions., (© 2021. The Authors.)

Published

2021

8. Upper mantle structure of Mars from InSight seismic data.

Author

Khan A, Ceylan S, van Driel M, Giardini D, Lognonné P, Samuel H, Schmerr NC, Stähler SC, Duran AC, Huang Q, Kim D, Broquet A, Charalambous C, Clinton JF, Davis PM, Drilleau M, Karakostas F, Lekic V, McLennan SM, Maguire RR, Michaut C, Panning MP, Pike WT, Pinot B, Plasman M, Scholz JR, Widmer-Schnidrig R, Spohn T, Smrekar SE, and Banerdt WB

Abstract

For 2 years, the InSight lander has been recording seismic data on Mars that are vital to constrain the structure and thermochemical state of the planet. We used observations of direct ( P and S ) and surface-reflected ( PP , PPP , SS , and SSS ) body-wave phases from eight low-frequency marsquakes to constrain the interior structure to a depth of 800 kilometers. We found a structure compatible with a low-velocity zone associated with a thermal lithosphere much thicker than on Earth that is possibly related to a weak S -wave shadow zone at teleseismic distances. By combining the seismic constraints with geodynamic models, we predict that, relative to the primitive mantle, the crust is more enriched in heat-producing elements by a factor of 13 to 20. This enrichment is greater than suggested by gamma-ray surface mapping and has a moderate-to-elevated surface heat flow., (Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2021

9. Modeling of atmospheric-coupled Rayleigh waves on planets with atmosphere: From Earth observation to Mars and Venus perspectives.

Author

Lognonné P, Karakostas F, Rolland L, and Nishikawa Y

Abstract

Acoustic coupling between solid Earth and atmosphere has been observed since the 1960s, first from ground-based seismic, pressure, and ionospheric sensors and since 20 years with various satellite measurements, including with global positioning system (GPS) satellites. This coupling leads to the excitation of the Rayleigh surface waves by local atmospheric sources such as large natural explosions from volcanoes, meteor atmospheric air-bursts, or artificial explosions. It contributes also in the continuous excitation of Rayleigh waves and associated normal modes by atmospheric winds and pressure fluctuations. The same coupling allows the observation of Rayleigh waves in the thermosphere most of the time through ionospheric monitoring with Doppler sounders or GPS. The authors review briefly in this paper observations made on Earth and describe the general frame of the theory enabling the computation of Rayleigh waves for models of telluric planets with atmosphere. The authors then focus on Mars and Venus and give in both cases the atmospheric properties of the Rayleigh normal modes and associated surface waves compared to Earth. The authors then conclude on the observation perspectives especially for Rayleigh waves excited by atmospheric sources on Mars and for remote ionospheric observations of Rayleigh waves excited by quakes on Venus.

Published

2016

10. Smoking habits and associated factors among Greek physicians.

Author

Sotiropoulos A, Gikas A, Spanou E, Dimitrelos D, Karakostas F, Skliros E, Apostolou O, Politakis P, and Pappas S

Subjects

Adult, Aged, Cross-Sectional Studies, Female, Greece epidemiology, Health Surveys, Humans, Male, Middle Aged, Physicians statistics & numerical data, Prevalence, Surveys and Questionnaires, Attitude of Health Personnel, Health Behavior, Health Knowledge, Attitudes, Practice, Physicians psychology, Smoking epidemiology

Abstract

Objective: To investigate the smoking habits and associated risk factors among Greek physicians., Study Design: Cross-sectional survey of a randomly selected sample of Greek physicians., Methods: A national sample of 1284 physicians (718 men, 566 women) participated in the study, which was conducted between September 2003 and June 2005. Data were collected through an anonymous self-completed questionnaire. Logistic regression was used to analyse the influence of different factors on the probability of a physician being a current or former smoker., Results: Overall, 38.6% of the physicians (40% of men; 37% of women) currently smoked, 13.8% were former smokers, and 47.6% had never smoked. Eighty-three per cent of smokers reported starting smoking before the age of 25 years, with half of them during medical school (aged 19-24 years). Multivariate analyses revealed that physicians who were male, unmarried, divorced or widowed, surgeons or anaesthetists, and residents were more likely to be current smokers. Former smokers were more likely to be older, male and born in a rural area. Moreover, the odds of being a current or former smoker were significantly higher among physicians with a history of parents who smoked. The proportion of physicians who reported counselling patients (often or always) to stop smoking was lower among current smokers compared with those who never smoked or those who were former smokers (74.4% vs. 85.3% vs. 84.7%, P<0.0001)., Conclusions: The prevalence of smoking among Greek physicians is exceedingly high and similar to that of the general population. More effective interventions that reduce smoking in the medical community should be implemented immediately so that physicians will be better able to fulfil their function as role models for the general population.

Published

2007