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1. Effect of a columnar defect on the shape of slow-combustion fronts

Author

Myllys, M., Maunuksela, J., Merikoski, J., Timonen, J., Horváth, V. K., Ha, M., and Nijs, M. den

Subjects
Condensed Matter
Abstract

We report experimental results for the behavior of slow-combustion fronts in the presence of a columnar defect with excess or reduced driving, and compare them with those of mean-field theory. We also compare them with simulation results for an analogous problem of driven flow of particles with hard-core repulsion (ASEP) and a single defect bond with a different hopping probability. The difference in the shape of the front profiles for excess vs. reduced driving in the defect, clearly demonstrates the existence of a KPZ-type of nonlinear term in the effective evolution equation for the slow-combustion fronts. We also find that slow-combustion fronts display a faceted form for large enough excess driving, and that there is a corresponding increase then in the average front speed. This increase in the average front speed disappears at a non-zero excess driving in agreement with the simulated behavior of the ASEP model., Comment: 7 pages, 7 figures

Published
2003
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2. Temporal and spatial persistence of combustion fronts

Author

Merikoski, J., Maunuksela, J., Myllys, M., Timonen, J., and Alava, M. J.

Subjects
Condensed Matter - Statistical Mechanics, Condensed Matter - Disordered Systems and Neural Networks
Abstract

The spatial and temporal persistence, or first-return distributions are measured for slow combustion fronts in paper. The stationary temporal and (perhaps less convincingly) spatial persistence exponents agree with the predictions based on the front dynamics, which asymptotically belongs to the Kardar-Parisi-Zhang (KPZ) universality class. The stationary short-range and the transient behavior of the fronts is non-Markovian and the observed persistence properties thus do not agree with the theory. This deviation is a consequence of additional time and length scales, related to the crossovers to the asymptotic coarse-grained behavior., Comment: 4 pages, 4 figures

Published
2002
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3. Kinetic Roughening in Slow Combustion of Paper

Author

Myllys, M., Maunuksela, J., Alava, M., Ala-Nissila, T., Merikoski, J., and Timonen, J.

Subjects
Condensed Matter - Statistical Mechanics, Condensed Matter - Disordered Systems and Neural Networks
Abstract

Results of experiments on the dynamics and kinetic roughening of one-dimensional slow-combustion fronts in three grades of paper are reported. Extensive averaging of the data allows a detailed analysis of the spatial and temporal development of the interface fluctuations. The asymptotic scaling properties, on long length and time scales, are well described by the Kardar-Parisi-Zhang (KPZ) equation with short-range, uncorrelated noise. To obtain a more detailed picture of the strong-coupling fixed point, characteristic of the KPZ universality class, universal amplitude ratios, and the universal coupling constant are computed from the data and found to be in good agreement with theory. Below the spatial and temporal scales at which a cross-over takes place to the standard KPZ behavior, the fronts display higher apparent exponents and apparent multiscaling. In this regime the interface velocities are spatially and temporally correlated, and the distribution of the magnitudes of the effective noise has a power-law tail. The relation of the observed short-range behavior and the noise as determined from the local velocity fluctuations is discussed., Comment: RevTeX v3.1, 13 pages, 12 Postscript figures (uses epsf.sty), 3 tables; submitted to Phys. Rev. E

Published
2001
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4. Observations of a Solar Energetic Particle Event From Inside and Outside the Coma of Comet 67P

Author

Wellbrock, A., primary, Jones, G. H., additional, Dresing, N., additional, Coates, A. J., additional, Simon Wedlund, C., additional, Nilsson, H., additional, Sanchez‐Cano, B., additional, Palmerio, E., additional, Turc, L., additional, Myllys, M., additional, Henri, P., additional, Goetz, C., additional, Witasse, O., additional, Nordheim, T. A., additional, and Mandt, K., additional

Published
2022
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6. Die intestinale Mikrobiota schützt vor cholestatischem Leberschaden durch FXR Aktivierung

Author

Schneider, KM, additional, Candels, LS, additional, Hov, JR, additional, Myllys, M, additional, Hassan, R, additional, Schneider, CV, additional, Wahlström, A, additional, Mohs, A, additional, Zühlke, S, additional, Liao, L, additional, Elfers, C, additional, Kilic, K, additional, Henricsson, M, additional, Molinaro, A, additional, Hatting, M, additional, Zaza, A, additional, Drasdo, D, additional, Frissen, M, additional, Gálvez, EJC, additional, Strowig, T, additional, Karlsen, TH, additional, Hengstler, JG, additional, Marschall, HU, additional, Ghallab, A, additional, and Trautwein, C, additional

Published
2021
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11. A so far unrecognized mechanism of acetaminophen hepatotoxicity

Author

Ghallab, A, additional, Hassan, R, additional, Myllys, M, additional, Friebel, A, additional, Brackhagen, L, additional, Hofmann, U, additional, Sezgin, S, additional, Seddek, AL, additional, Zuehlke, S, additional, Reinders, J, additional, Hoehme, S, additional, and Hengstler, JG, additional

Published
2021
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14. Metabolic reprogramming in livers of mice with chronic liver disease

Author

Myllys, M, additional, Holland, CH, additional, Saez-Rodriquez, J, additional, Murad, W, additional, Zaza, A, additional, Hassan, R, additional, Ahmed, YA, additional, Abbas, T, additional, Abdelrahim, EA, additional, Schneider, KM, additional, Jörg, R, additional, Drasdo, D, additional, Berres, ML, additional, Trautwein, C, additional, Hengstler, JG, additional, and Ghallab, A, additional

Published
2020
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16. Plasma properties of suprathermal electrons near comet 67P/Churyumov-Gerasimenko with Rosetta

Author

Myllys, M., Henri, P., Galand, M., Heritier, K. L., Gilet, N., Goldstein, R., Eriksson, Anders, Johansson, Fredrik, Deca, J., Myllys, M., Henri, P., Galand, M., Heritier, K. L., Gilet, N., Goldstein, R., Eriksson, Anders, Johansson, Fredrik, and Deca, J.

Abstract

Context: The Rosetta spacecraft escorted comet 67P/Churyumov-Gerasimenko from 2014 to September 2016. The mission provided in situ observations of the cometary plasma during different phases of the cometary activity, which enabled us to better understand its evolution as a function of heliocentric distance. Aims: In this study, different electron populations, called warm and hot, observed by the Ion and Electron Sensor (IES) of the Rosetta Plasma Consortium (RPC) are investigated near the comet during the escorting phase of the Rosetta mission. Methods: The estimates for the suprathermal electron densities and temperatures were extracted using IES electron data by fitting a double-kappa function to the measured velocity distributions. The fitting results were validated using observations from other RPC instruments. We give upgraded estimates for the warm and hot population densities compared to values previously shown in literature. Results: The fitted density and temperature estimates for both electron populations seen by IES are expressed as a function of heliocentric distance to study their evolution with the cometary activity. In addition, we studied the dependence between the electron properties and cometocentric distance. Conclusions: We observed that when the neutral outgassing rate of the nucleus is high (i.e., near perihelion) the suprathermal electrons are well characterized by a double-kappa distribution. In addition, warm and hot populations show a significant dependence with the heliocentric distance. The populations become clearly denser near perihelion while their temperatures are observed to remain almost constant. Moreover, the warm electron population density is shown to be strongly dependent on the radial distance from the comet. Finally, based on our results we reject the hypothesis that hot electron population seen by IES consists of solely suprathermal (halo) solar wind electrons, while we suggest that the hot electron population mainly consist

Published
2019
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17. X-ray microtomography and laser ablation in the analysis of ink distribution in coated paper.

Author

Myllys, M., Häkkänen, H., Korppi-Tommola, J., Backfolk, K., Sirviö, P., and Timonen, J.

Subjects
*LASER ablation, *X-ray computed microtomography, *INK chemistry, *PERMEABILITY of paper coatings, *PROFILOMETER, *PENETRATION mechanics
Abstract

A novel method was developed for studying the ink-paper interface and the structural variations of a deposited layer of ink. Combining high-resolution x-ray tomography with laser ablation, the depth profile of ink (toner), i.e., its varying thickness, could be determined in a paper substrate. X-ray tomography was used to produce the 3D structure of paper with about 1 μm spatial resolution. Laser ablation combined with optical imaging was used to produce the 3D structure of the printed layer of ink on top of that paper with about 70 nm depth resolution. Ablation depth was calibrated with an optical profilometer. It can be concluded that a toner layer on a light-weight-coated paper substrate was strongly perturbed by protruding fibers of the base paper. Such fibers together with the surface topography of the base paper seem to be the major factors that control the leveling of toner and its penetration into a thinly coated paper substrate. [ABSTRACT FROM AUTHOR]

Published
2015
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19. The properties of the singing comet waves in the 67P/Churyumov-Gerasimenko plasma environment as observed by the Rosetta mission

Author

Breuillard, H., Bucciantini, L., Pierre Henri, Xavier Vallières, Volwerk, M., Karlsson, T., Eriksson, A., Odelstad, E., Johansson, F. L., Richter, I., Goetz, C., Hajra, R., Gilet, N., Myllys, M. E., and POTHIER, Nathalie

Subjects
[SDU] Sciences of the Universe [physics], Comets: dust tails and trails, Erosion and weathering, Interactions with solar wind plasma and fields, PLANETARY SCIENCES: COMETS AND SMALL BODIES, Composition
Abstract

While previous cometary missions were only limited to flybys, the groundbreaking ESA/Rosetta mission escorted comet 67P for two years. This enabled for the first time to make in situ measurements of the evolution of a comet's plasma environment. On one hand, low time resolution electron densities are calculated using the plasma frequency extracted from the mutual impedance spectra measured by the RPC-Mutual Impedance Probe (MIP). On the other hand, high time resolution fluctuations of spacecraft potential and ion current are measured by the RPC-Langmuir Probe (LAP). Thus, we perform a MIP-LAP cross-calibration using a spacecraft charging model to retrieve high time resolution electron density fluctuations throughout the entire mission (whenever both the required MIP and LAP operations and data allow). This new dataset will be available to the scientific community on the ESA/PSA around Summer 2019, however it is already available for specific cases of interest. Here, we make use of these data, together with RPC-MAG magnetic field measurements, to investigate in detail the properties of the low-frequency so-called "singing comet" waves observed in the plasma environment of 67P, making use of a change in the wave activity before and during a cometary brightness outburst on February 19, 2016.

Published
2018

20. Evolution of High-Energy Electron Populations as a Function of Heliocentric Distance

Author

Myllys, M. E., Pierre Henri, Goldstein, R., Galand, M. F., Gilet, N., Heritier, K. L., Burch, J. L., and POTHIER, Nathalie

Subjects
[SDU] Sciences of the Universe [physics], Ionospheres, Planetary ionospheres, Magnetospheres, PLANETARY SCIENCES: SOLID SURFACE PLANETS, Ionospheric dynamics
Abstract

A dynamic plasma environment is created around the comet when its expanding atmosphere gets ionized by solar EUV radiation and electron-impact ionization. The characteristics of the near-cometary plasma vary with the cometary activity phase (i.e., heliocentric distance). Plasma instruments onboard the ESA/Rosetta spacecraft monitored the plasma environment near comet 67P/Churyumov-Gerasimenko and provided in situ observations of the plasma that enabled us to improve our understanding of different electron populations, their existence and characteristics in the near-comet environment at different steps of the comet activity cycle. High-energy electrons were observed near comet through out the Rosetta's escorting phase. These electrons are able to ionize cometary neutrals and thus they have a direct impact on the total plasma density around the comet. We have studied how the density and temperature of different energetic electron populations vary with heliocentric distance. The properties of these electron populations are estimated by fitting a double-kappa function to the measured electron phase space distribution. The results are compared with values that have been achieved by directly integrating over the phase space. The density and temperature values of the near-cometary electron populations are compared with the core and halo solar wind electron properties and their possible relationship is discussed. Acceleration and heating mechanisms for the electrons suggested in the literature are discussed and confronted to our results.

Published
2018

22. The Cross-Polar Cap Saturation in GUMICS-4 During High Solar Wind Driving

Author

Lakka, A., Pulkkinen, T. I., Dimmock, Andrew P., Myllys, M., Honkonen, I., Palmroth, M., Lakka, A., Pulkkinen, T. I., Dimmock, Andrew P., Myllys, M., Honkonen, I., and Palmroth, M.

Abstract

It is well known that the Earth's ionospheric cross‐polar cap potential (CPCP) saturates as a response to the solar wind (SW) driver especially when the level of driving is high and the interplanetary magnetic field is oriented southward. Moreover, previous studies have shown that the upstream Alfvén Mach number may be an important factor in the saturation effect. While the CPCP is often viewed as a measure of the SW‐magnetosphere‐ionosphere coupling, the processes associated with the nonlinearity of the coupling remain an open issue. We use fourth edition of the Grand Unified Magnetosphere‐Ionosphere Coupling Simulation (GUMICS‐4) and artificial SW data to mimic weak and strong driving in order to study the CPCP response to a wide range of interplanetary magnetic field magnitudes (3.5–30 nT) and upstream Alfvén Mach number values (1.2–22). The results provide the first overview of the CPCP saturation in GUMICS‐4 and show that the onset of saturation is strongly dependent on the upstream Alfvén Mach number and the physical processes responsible for the saturation effect might take place both in the Earth's magnetosheath and in the upstream SW.

Published
2018
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27. Magnetosheath control of solar wind-magnetosphere coupling efficiency

Author

University of Helsinki, Department of Physics, Pulkkinen, T. I., Dimmock, A. P., Lakka, A., Osmane, A., Kilpua, E., Myllys, M., Tanskanen, E. I., Viljanen, A., University of Helsinki, Department of Physics, Pulkkinen, T. I., Dimmock, A. P., Lakka, A., Osmane, A., Kilpua, E., Myllys, M., Tanskanen, E. I., and Viljanen, A.

Abstract

We examine the role of the magnetosheath in solar wind-magnetosphere-ionosphere coupling using the Time History of Events and Macroscale Interactions during Substorms plasma and magnetic field observations in the magnetosheath together with OMNI solar wind data and auroral electrojet recordings from the International Monitor for Auroral Geomagnetic Effects (IMAGE) magnetometer chain. We demonstrate that the electric field and Poynting flux reaching the magnetopause are not linear functions of the electric field and Poynting flux observed in the solar wind: the electric field and Poynting flux at the magnetopause during higher driving conditions are lower than those predicted from a linear function. We also show that the Poynting flux normal to the magnetopause is linearly correlated with the directly driven part of the auroral electrojets in the ionosphere. This indicates that the energy entering the magnetosphere in the form of the Poynting flux is directly responsible for driving the electrojets. Furthermore, we argue that the polar cap potential saturation discussed in the literature is associated with the way solar wind plasma gets processed during the bow shock crossing and motion within the magnetosheath.

Published
2016

30. Forecasting auroras from regional and global magnetic field measurements

Author

Kauristie, K., primary, Myllys, M., additional, Partamies, N., additional, Viljanen, A., additional, Peitso, P., additional, Juusola, L., additional, Ahmadzai, S., additional, Singh, V., additional, Keil, R., additional, Martinez, U., additional, Luginin, A., additional, Glover, A., additional, Navarro, V., additional, and Raita, T., additional

Published
2016
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31. Latitude dependence of long-term geomagnetic activity and its solar wind drivers

Author

University of Helsinki, Department of Physics, Myllys, M., Partamies, N., Juusola, L., University of Helsinki, Department of Physics, Myllys, M., Partamies, N., and Juusola, L.

Abstract

To validate the usage of global indices in studies of geomagnetic activity, we have examined the latitude dependence of geomagnetic variations in Fennoscandia and Svalbard from 1994 to 2010. Daily standard deviation (SD) values of the horizontal magnetic field have been used as a measure of the ground magnetic disturbance level. We found that the timing of the geomagnetic minimum depends on the latitude region: corresponding to the minimum of sunspot cycle 22 (in 1996), the geomagnetic minimum occurred between the geomagnetic latitudes 57-61 degrees in 1996 and at the latitudes 64-67 degrees in 1997, which are the average auroral oval latitudes. During sunspot cycle 23, all latitude regions experienced the minimum in 2009, a year after the sunspot minimum. These timing differences are due to the latitude dependence of the 10 s daily SD on the different solar wind drivers. In the latitude region of 64-67 degrees, the impact of the high-speed solar wind streams (HSSs) on the geomagnetic activity is the most pronounced compared to the other latitude groups, while in the latitude region of 57-61 degrees, the importance of the coronal mass ejections (CMEs) dominates. The geomagnetic activity maxima during ascending solar cycle phases are typically caused by CME activity and occur especially in the oval and sub-auroral regions. The strongest geomagnetic activity occurs during the descending solar cycle phases due to a mixture of CME and HSS activity. Closer to the solar minimum, less severe geomagnetic activity is driven by HSSs and mainly visible in the poleward part of the auroral region. According to our study, however, the timing of the geomagnetic activity minima (and maxima) in different latitude bands is different, due to the relative importance of different solar wind drivers at different latitudes.

Published
2015

32. Solar-wind control of plasma sheet dynamics

Author

University of Helsinki, Department of Physics, Myllys, M., Kilpua, E., Pulkkinen, T., University of Helsinki, Department of Physics, Myllys, M., Kilpua, E., and Pulkkinen, T.

Abstract

The purpose of this study is to quantify how solar-wind conditions affect the energy and plasma transport in the geomagnetic tail and its large-scale configuration. To identify the role of various effects, the magnetospheric data were sorted according to different solar-wind plasma and interplanetary magnetic field (IMF) parameters: speed, dynamic pressure, IMF north-south component, epsilon parameter, Auroral Electrojet (AE) index and IMF ultra low-frequency (ULF) fluctuation power. We study variations in the average flow speed pattern and the occurrence rate of fast flow bursts in the magnetotail during different solar-wind conditions using magnetospheric data from five Time History of Events and Macroscale Interactions during Substorms (THEMIS) mission spacecraft and solar-wind data from NASA's OM-NIWeb. The time interval covers the years from 2008 to 2011 during the deep solar minimum between cycles 23 and 24 and the relatively quiet rising phase of cycle 24. Hence, we investigate magnetospheric processes and solar-wind-magnetospheric coupling during a relatively quiet state of the magnetosphere. We show that the occurrence rate of the fast (vertical bar V-tail vertical bar > 100 km s(-1)) sunward flows varies under different solar-wind conditions more than the occurrence of the fast tailward flows. The occurrence frequency of the fast tailward flows does not change much with the solar-wind conditions. We also note that the sign of the IMF B-Z has the most visible effect on the occurrence rate and pattern of the fast sunward flows. High-speed flow bursts are more common during the slow than fast solar-wind conditions.

Published
2015

38. Characterizing low-permeable granitic rock from micrometer to centimeter scale:X-ray microcomputed tomography, confocal laser scanning microscopy and ¹⁴C-PMMA method

Author

Siitari-Kauppi, Marja, Kelokaski, Maarit, Voutilainen, M, Myllys, M, Turpeinen, Tuomas, Lähdemäki, Tomi, Timonen, J, Mateos, F., and Montoto, M.

Abstract

First results of combining X-ray microcomputer tomography (µCT), confocal laser-scanning microscopy (CLSM) and 14C-polymethylmethacrylate (14C-PMMA) impregnation techniques in the study of granitic rock samples are reported. Combining results of µCT and CLSM with those of the 14C-PMMA technique, the mineral-specific porosity and morphology of the open pore space, as well as its connectivity, could be analyzed from a micrometer up to a decimeter scale.Three different types of granite were studied. In two cases part of the micro-fissure and pore apertures were found to be in a micrometer scale, but in one case all grain-boundary openings were below the detection limit. Micrometer-scale apertures could be analyzed by CLSM and µCT. The benefit of µCT is that it can also provide the heterogeneous distribution of minerals in 3D. The 2D porosity distributions in the mineral phases, consisting of nanometer-scale pores, could be measured by the 14C-PMMA method together with the micro-fissures. This method does not, however, give the exact pore apertures. The limitations and applicability of the methods are discussed.

Published
2006
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39. Maunuksela et al. Reply to the comment of Amaral and Makse

Author

Maunuksela, J., Myllys, M., Timonen, J., Kuittu, M., Ala-Nissilä, Tapio, Alava, M. J., Provatas, N., Perustieteiden korkeakoulu, School of Science, Teknillisen fysiikan laitos, Department of Applied Physics, Aalto-yliopisto, and Aalto University

Subjects
burning experiments, Physics, paper
Abstract

Comment on "kinetic roughening in slow combustion of paper" - Maunuksela et al reply A Reply to the Comment by Luis A. Nunes Amaral and Hernan A. Makse.

Published
1998

45. Kinetic Roughening in Slow Combustion of Paper

Author

Maunuksela, J., Myllys, M., Timonen, J., Kähkönen, O.-P., Provatas, N., Alava, M.J., Ala-Nissilä, T., Maunuksela, J., Myllys, M., Timonen, J., Kähkönen, O.-P., Provatas, N., Alava, M.J., and Ala-Nissilä, T.

Published
1997

49. Maunukselaet al.Reply

Author

Maunuksela, J., primary, Myllys, M., additional, Timonen, J., additional, Kuittu, M., additional, Ala-Nissila, T., additional, Alava, M. J., additional, and Provatas, N., additional

Published
1998
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