Your search keyword '"Planetology"' showing total 703 results

1. Understanding the WMAP Results: Low-Order Multipoles and Dust in the Vicinity of the Solar System.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Dikarev, Valeri, Preuß, Oliver, Solanki, Sami, Krüger, Harald, and Krivov, Alexander

Abstract

Analyses of the cosmic microwave background (CMB) radiation maps produced by the Wilkinson Microwave Anisotropy Probe (WMAP) have revealed anomalies not predicted by the standard cosmological theory. It has been suggested that a dust cloud in the vicinity of the Solar system may be the cause for these anomalies. In this paper, the thermal emission by particles from two known interplanetary meteoroid complexes is tested against the CMB maps. Conclusions are drawn based on the geometry of cloud projections onto the WMAP sky whether these clouds are likely to explain the observed anomaly. The smooth background Zodiacal cloud and one of the Taurid meteor complex branches do not explain the WMAP anomaly. [ABSTRACT FROM AUTHOR]

Published

2008

2. TV Meteor Observations from Modra.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Tóth, J., Kornoš, L., Gajdoš, Š., Kalmančok, D., Zigo, P., Világi, J., and Hajduková, M.

Abstract

We present our experience and initial results of single-station observation using the new fish-eye TV system, as well as double station TV observation of the Geminids 2006 shower. The fixed fish-eye TV system was developed for monitoring meteor activity throughout the year. We discuss the astrometric precision of our observations using the UFOAnalyser software. [ABSTRACT FROM AUTHOR]

Published

2008

3. Algorithms and Software for Meteor Detection.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., and Gural, Peter S.

Abstract

An ever increasing variety of electronic instrumentation is being brought to bear in meteor studies and analysis, with unique meteor detection challenges arising from the attempt to do automated and near real-time processing of the imagery. Recent algorithm developments in the literature have been applied and implemented in software to provide reliable meteor detection in all-sky imagers, wide-field intensified video, and narrow field-of-view telescopic systems. The algorithms that have been employed for meteor streak detection include Hough transforms with phase coded disk, localized Hough transforms with matched filtering, and fast moving cluster detection. They have found application in identifying meteor tracks in the Spanish Fireball Network all-sky images, detailed analysis of video recordings during the recent Leonid meteor storms, and development of a detection/cueing technology system for rapid slew and tracking of meteors. [ABSTRACT FROM AUTHOR]

Published

2008

4. Measurement of Ejecta from Normal Incident Hypervelocity Impact on Lunar Regolith Simulant.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Edwards, David L., Cooke, William, Moser, Danielle E., and Swift, Wesley

Abstract

The National Aeronautics and Space Administration (NASA) continues to make progress toward long-term lunar habitation. Critical to the design of a lunar habitat is an understanding of the lunar surface environment. A subject for further definition is the lunar impact ejecta environment. The document NASA SP-8013 was developed for the Apollo program and is the latest definition of the ejecta environment. There is concern that NASA SP-8013 may over-estimate the lunar ejecta environment. NASA's Meteoroid Environment Office (MEO) has initiated several tasks to improve the accuracy of our understanding of the lunar surface ejecta environment. This paper reports the results of experiments on projectile impact into powered pumice targets, simulating unconsolidated lunar regolith. The Ames Vertical Gun Range (AVGR) was used to accelerate spherical Pyrex projectiles of 0.29g to velocities ranging between 2.5 and 5.18 km/s. Impact on the pumice target occurred at normal incidence. The ejected particles were detected by thin aluminum foil targets placed around the pumice target in a 0.5 Torr vacuum. A simplistic technique to characterize the ejected particles was formulated. Improvements to this technique will be discussed for implementation in future tests. [ABSTRACT FROM AUTHOR]

Published

2008

5. Mineralogy of HED Meteorites Using the Modified Gaussian Model.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Canas, Lina, Duffard, René, and Seixas, Teresa

Abstract

The correlation between specific meteorites and asteroids is a long-standing problem. The best-known correlation seems to be the HED-Vesta, although several problems still remain to be solved. We report the spectral reflectance analysis (0.4-2.5 μm) of a set of HED meteorites, taken from the RELAB database and three V-type asteroids, taken from MIT-UH-IRTF Joint Campaign for NEO Reconnaissance. We used the Modified Gaussian Model to fit the spectra to a series of overlapping, modified Gaussian absorptions. The fitted individual bands are validated against established laboratory calibrations. With spectral resolution extending to the near-infrared, we are able to resolve the presence of both high-calcium pyroxene (HCP) and low-calcium pyroxene (LCP) and, thus, use the HCP/(HCP + LCP) ratios to remotely trace igneous processing on the parent asteroids. A search of this mineral provides a useful probe of differentiation. The high HCP/(HCP + LCP) ratios found require extensive differentiation of these asteroids and/or their primordial parent body. The degree of melting obtained for the eucrites, using the former ratio, is comparable with that obtained for all V-type asteroids here analyzed, suggesting a comparable geologic history. [ABSTRACT FROM AUTHOR]

Published

2008

6. March 1, 2005 Daylight Fireball Over Galicia (NW of Spain) and Minho (N. Portugal).

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Docobo, José Angel, Trigo-Rodríguez, Josep Maria, Borovicka, Jiri, Tamazian, Vakhtang S., Fernandes, Vera Assis, and Llorca, Jordi

Abstract

A daylight bolide was observed over Galicia (NW Spain) and Minho (N. Portugal) on March 1, 2005 at 15 h10 min ± 3 min UTC. We interviewed 23 eyewitnesses of the event in order to obtain the azimuth, altitude, and slope of the fireball's trajectory. Reports suggest an atmospheric ending height below 20 km, indicating that meteorite survival was likely. From the reconstructed trajectory and the fireball's duration, we obtained the approximate heliocentric orbits for the meteoroid. Assuming an entry velocity higher than 20 km s−1 which is consistent with its estimated duration, the meteoroid originated in the asteroid belt. [ABSTRACT FROM AUTHOR]

Published

2008

7. Micrometeorites and Their Implications for Meteors.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., and Genge, Matthew J.

Abstract

Micrometeorites (MMs) are extraterrestrial dust particles, in the size range 25-400 μm, recovered from the Earth's surface. They have experienced a wide range of heating during atmospheric entry from completely molten spherules to particles heated to temperatures <300°C that have retained low temperature minerals. The majority of MMs have mineralogies, textures and compositions that strongly resemble components from chondritic meteorites suggesting these correspond to sporadic, low geocentric velocity meteors. Changes in MMs due to entry heating, however, have implications for meteoric processes in general that may allow the observed behaviour of meteors to be directly related to the material properties of their meteoroids. [ABSTRACT FROM AUTHOR]

Published

2008

8. Large Dust Grains Around Cometary Nuclei.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Molina, A., Moreno, F., and Jiménez-Fernández, F. J.

Abstract

Large amounts of particles ejected from the nucleus surface are present in the vicinity of the cometary nuclei when comets are near the Sun (at heliocentric distances ≤2 AU). The largest dust grains ejected may constitute a hazard for spatial vehicles. We tried to obtain the bounded orbits of those particles and to investigate their stability along several orbital periods. The model includes the solar and the cometary gravitational forces and the solar radiation pressure force. The nucleus is assumed to be spherical. The dust grains are also assumed to be spherical, and radially ejected. We include the effects of centrifugal forces owing to the comet rotation. An expression for the most heavy particles that can be lifted is proposed. Using the usual values adopted for the case of Halley's comet, the largest grains that can be lifted have a diameter about 5 cm, and the term due to the rotation is negligible. However, that term increases the obtained value for the maximum diameter of the lifted grain in a significant amount when the rotation period is of the order of a few hours. [ABSTRACT FROM AUTHOR]

Published

2008

9. Mostly Dormant Comets and their Disintegration into Meteoroid Streams: A Review.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., and Jenniskens, Peter

Abstract

The history of associating meteor showers with asteroidal-looking objects is long, dating to before the 1983 discovery that 3200 Phaethon moves among the Geminids. Only since the more recent recognition that 2003 EH1 moves among the Quadrantids are we certain that dormant comets are associated with meteoroid streams. Since that time, many orphan streams have found parent bodies among the newly discovered Near Earth Objects. The seven established associations pertain mostly to showers in eccentric or highly inclined orbits. At least 35 other objects are tentatively linked to streams in less inclined orbits that are more difficult to distinguish from those of asteroids. There is mounting evidence that the streams originated from discrete breakup events, rather than long episodes of gradual water vapor outgassing. If all these associations can be confirmed, they represent a significant fraction of all dormant comets that are in near-Earth orbits, suggesting that dormant comets break at least as frequently as the lifetime of the streams. I find that most pertain to NEOs that have not yet fully decoupled from Jupiter. The picture that is emerging is one of rapid disintegration of comets after being captured by Jupiter, and consequently, that objects such as 3200 Phaethon most likely originated from among the most primitive asteroids in the main belt, instead. They too decay mostly by disintegration into comet fragments and meteoroid streams. The disintegration of dormant comets is likely the main source of our meteor showers and the main supply of dust to the zodiacal cloud. [ABSTRACT FROM AUTHOR]

Published

2008

10. NEOCAM: The Near Earth Object Chemical Analysis Mission.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Nuth, Joseph A., Lowrance, John L., and Carruthers, George R.

Abstract

The prime measurement objective of the Near Earth Object Chemical Analysis Mission (NEOCAM) is to obtain the ultraviolet spectra of meteors entering the terrestrial atmosphere from ∼125 to 300 nm in meteor showers. All of the spectra will be collected using a slitless ultraviolet spectrometer in Earth orbit. Analysis of these spectra will reveal the degree of chemical diversity in the meteors, as observed in a single meteor shower. Such meteors are traceable to a specific parent body and we know exactly when the meteoroids in a particular shower were released from that parent body (Asher, in: Arlt (ed.) Proc. International Meteor Conference, 2000; Lyytinen and van Flandern, Earth Moon Planets 82-83:149-166, 2000). By observing multiple apparitions of meteor showers we can therefore obtain quasi-stratigraphic information on an individual comet or asteroid. We might also be able to measure systematic effects of chemical weathering in meteoroids from specific parent bodies by looking for correlations in the depletions of the more volatile elements as a function of space exposure (Borovička et al., Icarus 174:15-30, 2005). By observing the relation between meteor entry characteristics (such as the rate of deceleration or breakup) and chemistry we can determine if our meteorite collection is deficient in the most volatile-rich samples. Finally, we can obtain a direct measurement of metal deposition into the terrestrial stratosphere that may act to catalyze atmospheric chemical reactions. [ABSTRACT FROM AUTHOR]

Published

2008

11. Carbon in Meteoroids: Wild 2 Dust Analyses, IDPs and Cometary Dust Analogues.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Rotundi, Alessandra, and Rietmeijer, Frans J. M.

Abstract

Assuming that similar organic components as in comet 81P/Wild 2 are present in incoming meteoroids, we try to anticipate the observable signatures they would produce for meteor detection techniques. In this analysis we consider the elemental and organic components in cometary aggregate interplanetary dust particles and laboratory analyses of inter- and circumstellar carbon dust analogues. On the basis of our analysis we submit that (semi) quantitative measurements of H, N and C produced during meteor ablation will open an entire new aspect to using meteoroids as tracers of these volatile element abundances in active comets and their contributions to the mesospheric metal layers. [ABSTRACT FROM AUTHOR]

Published

2008

12. Analysis of a Low Density Meteoroid with Enhanced Sodium.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Borovička, Jiří, Koten, Pavel, Spurný, Pavel, and Štork, Rostislav

Abstract

We present an analysis of sporadic meteor number 07406018, observed by image intensified video cameras at two stations, which showed a pronounced deceleration along its trajectory. We have applied the erosion model to analyze simultaneously the deceleration and light curve. We have found that the meteoroid had a low density of about 500 kg m−3, consistent with its cometary orbit. The meteoroid structure was, nevertheless, markedly different from the Draconid meteoroids, studied recently with the same model. The size of the constituent grains was larger and the erosion energy was higher than in Draconids. The meteor spectrum was also different from Draconid spectra and showed very bright Na lines. The meteoroid composition was probably different from normal cometary composition. [ABSTRACT FROM AUTHOR]

Published

2008

13. Natural Variations in Comet-Aggregate Meteoroid Compositions.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., and Rietmeijer, Frans J. M.

Abstract

Bulk compositions of aggregate meteoroids made of the originally accreted dust with its highly varied in mineral content and chemistry and considerable grain size variations do not have a chondritic bulk composition. Deviations from CI element abundances reflect indigenous variations within and among comet nuclei. These unmodified meteoroids that are heterogeneous in all their properties are fundamentally different from meteoroids with a CI bulk composition that are fine-grained, equigranular materials and chemically and mineralogically homogeneous. Collection and data reduction bias exists but the compositions of individual fast meteors are entirely constrained by the measured main component meteor abundances. [ABSTRACT FROM AUTHOR]

Published

2008

14. Physical, Chemical, and Mineralogical Properties of Comet 81P/Wild 2 Particles Collected by Stardust.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., and Flynn, George James

Abstract

NASA's Stardust spacecraft collected dust from the coma of Comet 81P/Wild 2 by impact into aerogel capture cells or into Al-foils. The first direct, laboratory measurement of the physical, chemical, and mineralogical properties of cometary dust grains ranging from <10−15 to ∼10−4 g were made on this dust. Deposition of material along the entry tracks in aerogel and the presence of compound craters in the Al-foils both indicate that many of the Wild 2 particles in the size range sampled by Stardust are weakly bound aggregates of a diverse range of minerals. Mineralogical characterization of fragments extracted from tracks indicates that most tracks were dominated by olivine, low-Ca pyroxene, or Fe-sulfides, although one track was dominated by refractory minerals similar to Ca-Al inclusions in primitive meteorites. Minor mineral phases, including Cu-Fe-sulfide, Fe-Zn-sulfide, carbonate and metal oxides, were found along some tracks. The high degree of variability of the element/Fe ratios for S, Ca, Ti, Cr, Mn, Ni, Cu, Zn, and Ga among the 23 tracks from aerogel capture cells analyzed during Stardust Preliminary Examination is consistent with the mineralogical variability. This indicates Wild 2 particles have widely varying compositions at the largest size analyzed (>10 μm). Because Stardust collected particles from several jets, sampling material from different regions of the interior of Wild 2, these particles are expected to be representative of the non-volatile component of the comet over the size range sampled. Thus, the stream of particles associated with Comet Wild 2 contains individual grains of diverse elemental and mineralogical compositions, some rich in Fe and S, some in Mg, and others in Ca and Al. The mean refractory element abundance pattern in the Wild 2 particles that were examined is consistent with the CI meteorite pattern for Mg, Si, Cr, Fe, and Ni to 35%, and for Ca, Ti and Mn to 60%, but S/Si and Fe/Si both show a statistically significant depletion from the CI values and the moderately volatile elements Cu, Zn, Ga are enriched relative to CI. This elemental abundance pattern is similar to that in anhydrous, porous interplanetary dust particles (IDPs), suggesting that, if Wild 2 dust preserves the original composition of the Solar Nebula, the anhydrous, porous IDPs, not the CI meteorites, may best reflect the Solar Nebula abundances. This might be tested by elemental composition measurements on cometary meteors. [ABSTRACT FROM AUTHOR]

Published

2008

15. Model Radiants of the Geminid Meteor Shower.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., and Ryabova, Galina O.

Abstract

This paper describes the final stage of the study of the Geminid meteoroid stream formation and evolution using the nested polynomials method reported by Ryabova (in: Warmbein (ed.) Meteoroids 2001, Proc. of the Internat. Conf., Kiruna, Sweden, 6-10 August 2001; MNRAS 375:1371-1380, 2007). In the previous work we discussed possibility to calibrate the model using the shape of the model activity profiles and configuration of orbital parameters. Here we show that the radiant structure also could be utilized for this purpose, since the model radiant structure has a very specific pattern. Model area of radiation does not have a "classical" prolate linear shape, and the configuration of activity centers has a "V" shape. During one night of simulated observations several activity centers could be observed. The model produced maps of the velocity distribution in the radiant area. [ABSTRACT FROM AUTHOR]

Published

2008

16. What was the Volatile Composition of the Planetesimals that Formed the Earth?

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., and Nuth, Joseph A.

Abstract

Is there an asteroid type or meteorite class that best exemplifies the materials that went into the Earth? Carbonaceous chondrites were once the objects of choice, and in the minds of many this choice is still valid. However, the origin of primitive chondritic meteorites is unclear. At the extremes they could either be fragments of very small parent bodies that never became hot enough to undergo geochemical modification other than mild lithification, or remnants of the uppermost layers of a body that had undergone a significant degree of internal differentiation, while the top layers remained cool due to radiative heat loss or loss of volatiles to space. This latter case is problematic if one considers these objects as precursors to the Earth since the timescale for the evolution of such a small body could be longer than the timescale for the accretion of the Earth. Large-scale circulation of materials in the primitive solar nebula could greatly increase the diversity of materials near 1 AU while also making the entire inner solar system both more homogeneous and much wetter than previously expected. The total mass of the nebula is an important, but poorly constrained factor controlling the growth of planetesimals. There is also a selection effect that dominates our sampling of the planetesimals that may have existed 4.5 billion years ago; namely, small fragile bodies are more likely to be lost from the system or ground down by collisions between small bodies, yet these are precisely those that may have dominated the population from which the Earth accreted. The composition of these aggregates could have played a very important role in the early chemical evolution of the Earth. In particular, the Earth may have been much wetter and richer in hydrocarbons and other reducing materials than previously suspected. [ABSTRACT FROM AUTHOR]

Published

2008

17. Apophis: the Story Behind the Scenes.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Sansaturio, María Eugenia, and Arratia, Oscar

Abstract

On December 20, 2004 the Minor Planet Center issued the Minor Planet Electronic Circular (MPEC) 2004-Y25 announcing the discovery of a new Near Earth Asteroid (NEA) with designation 2004 MN4. Only two days later, when the Christmas holidays were about to begin, it was already apparent that this asteroid, currently known as Apophis, would be notorious: our close-approach monitoring system, CLOMON2, was already showing a Virtual Impactor (VI) in 2029 reaching the level 2 in the Torino Scale, the first asteroid to reach that level since our monitoring system had been operational. However, this was just the beginning of what it was to come in the subsequent days. In this paper we will give an overview of the NEODyS-CLOMON2 system and provide the details on how Apophis' collision scenario evolved, the way NEODyS' team handled it and the crazy 2004' Christmas holidays we had due to this unexpected guest. [ABSTRACT FROM AUTHOR]

Published

2008

18. Meteoroids, Meteors, and the Near-Earth Object Impact Hazard.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., and Chapman, Clark R.

Abstract

In considering the modern-day hazard from infalling near-Earth asteroids and comets, the focus has shifted toward the smallest, most frequent impacts that can do damage on the ground, like the 1908 Tunguska aerial burst. There is considerable uncertainty about the potential for damage by objects in the range 20 to 100 m diameter. Since smaller, less dangerous, meter-sized meteoroids are part of a continuum of small interplanetary bodies, derived by a collisional cascade and Yarkovsky spin-up, research on such phenomena by meteor scientists can shed light on a vital question that will soon have great practical relevance as new telescopic searches for near-Earth asteroids come on line: what is the threshold size between harmless high-altitude airbursts and impacts that can cause lethal damage on the ground? [ABSTRACT FROM AUTHOR]

Published

2008

19. Quantitative Comparison of a New Ab Initio Micrometeor Ablation Model with an Observationally Verifiable Standard Model.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Meisel, David D., Szasz, Csilla, and Kero, Johan

Abstract

The Arecibo UHF radar is able to detect the head-echos of micron-sized meteoroids up to velocities of 75 km/s over a height range of 80-140 km. Because of their small size there are many uncertainties involved in calculating their above atmosphere properties as needed for orbit determination. An ab initio model of meteor ablation has been devised that should work over the mass range 10−16 kg to 10−7 kg, but the faint end of this range cannot be observed by any other method and so direct verification is not possible. On the other hand, the EISCAT UHF radar system detects micrometeors in the high mass part of this range and its observations can be fit to a "standard" ablation model and calibrated to optical observations (Szasz et al. 2007). In this paper, we present a preliminary comparison of the two models, one observationally confirmable. Among the features of the ab initio model that are different from the "standard" model are: (1) uses the experimentally based low pressure vaporization theory of O'Hanlon (A users's guide to vacuum technology, 2003) for ablation, (2) uses velocity dependent functions fit from experimental data on heat transfer, luminosity and ionization efficiencies measured by Friichtenicht and Becker (NASA Special Publication 319: 53, 1973) for micron sized particles, (3) assumes a density and temperature dependence of the micrometeoroids and ablation product specific heats, (4) assumes a density and size dependent value for the thermal emissivity and (5) uses a unified synthesis of experimental data for the most important meteoroid elements and their oxides through least square fits (as functions of temperature, density, and/or melting point) of the tables of thermodynamic parameters given in Weast (CRC Handbook of Physics and Chemistry, 1984), Gray (American Institute of Physics Handbook, 1972), and Cox (Allen's Astrophysical Quantities 2000). This utilization of mostly experimentally determined data is the main reason for calling this an ab initio model and is made necessary by the fact that individual average meteoroid mass densities are now derivable from Arecibo observations. [ABSTRACT FROM AUTHOR]

Published

2008

20. Radar Backscatter from Underdense Meteors and Diffusion Rates.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Singer, Werner, Latteck, Ralph, Millan, Luis Federico, Mitchell, Nick J., and Fiedler, Jens

Abstract

Many meteoroids burn up between about 120 km and 70 km, deposit metals and dust and form ionized trails which are detected by radars. Model studies about the influence of neutral or positively charged background dust on the ambipolar diffusion indicate that significant smaller decay times should be observed for weak meteor echoes compared to strong meteor echoes which can affect the estimation of temperatures. The variation of meteor decay times in dependence on echo strength, height, and season was studied using radar observations at 69° N, 22° S, and 67° S. Significantly reduced decay times were found for weak echoes below about 88 km at low latitudes throughout the year, and at high latitudes with the exception of summer. In summer at high latitudes, decreasing decay times of weak and strong meteors are observed at altitudes below about 85 km during the appearance of noctilucent clouds. The impact of reduced decay times on the estimation of neutral temperatures from decay times is discussed. [ABSTRACT FROM AUTHOR]

Published

2008

21. Plasma and Electromagnetic Simulations of Meteor Head Echo Radar Reflections.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Dyrud, Lars, Wilson, Derek, Boerve, Steiner, Trulsen, Jan, Pecseli, Hans, Close, Sigrid, Chen, Chen, and Lee, Yoonjae

Abstract

Recently, meteor head echo detections from high powered large aperture radars (HPLA) have brought new measurements to bear on the study of sporadic interplanetary meteors. These same observations have demonstrated an ability to observe smaller meteoroids without some of the geometrical restrictions of specular radar techniques. Yet incorporating data from various radar reflection types and from different radars into a single consistent model has proven challenging. We believe this arises due to poorly understood radio scattering characteristics of the meteor plasma, especially in light of recent work showing that plasma turbulence and instability greatly influences meteor trail properties at every stage of evolution. In order to overcome some of the unknown relationships between meteoroid characteristics (such as mass and velocity) and the resulting head echo radar cross-sections (RCS), we present our results on meteor plasma simulations of head echo plasmas using particle in cell (PIC) ions, which show that electric fields strongly influence early stage meteor plasma evolution, by accelerating ions away from the meteoroid body at speeds as large as several kilometers per second. We also present the results of finite difference time domain electromagnetic simulations (FDTD), which can calculate the radar cross-section of the simulated meteor plasma electron distributions. These simulations have shown that the radar cross-section depends in a complex manner on a number of parameters. In this paper we demonstrate that for a given head echo plasma the RCS as a function of radar frequency peaks at sqrt (2*peak plasma frequency) and then decays linearly on a dB scale with increasing radar frequency. We also demonstrate that for a fixed radar frequency, the RCS increases linearly on a dB scale with increasing head echo plasma frequency. These simulations and resulting characterization of the head echo radar cross-section will both help relate HPLA radar observations to meteoroid properties and aid in determining a particular radar facility's ability to observe various meteoroid populations. [ABSTRACT FROM AUTHOR]

Published

2008

22. A New Model for the Separation of Meteoroid Fragments in the Atmosphere.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., and Barri, N. G.

Abstract

This work is devoted to modeling of the transverse scattering of meteoroid fragments in the atmosphere by adopting supersonic gas dynamics around a system of bodies. Artem'eva and Shuvalov (1996, Shock Waves, 367) and Zhdan et al. (2004, Dokl. Phys., 315-317) found that the transverse force decreases with the increase of the distance between fragments, that is, fragments do not separate in a transverse direction under the action of constant repulsion force. This work on the decreasing transverse force uses the values of the transverse force coefficient by Zhdan et al. (2004, Dokl. Phys., 315-317) obtained from numerical modeling for spheres in a supersonic flow to derive the analytical solution of the dynamic equation for a fragment. The new model of layer-by-layer scattering of meteoroid fragments moving as a system of bodies is constructed on the basis of the analytical solutions derived in this work and the numerical data by Zhdan et al. (2005, Dokl. Phys., 514-518). [ABSTRACT FROM AUTHOR]

Published

2008

23. Estimated Visual Magnitudes of the EISCAT UHF Meteors.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Szasz, Csilla, Kero, Johan, Pellinen-Wannberg, Asta, Meisel, David D., Wannberg, Gudmund, and Westman, Assar

Abstract

We have investigated the conditions for simultaneous meteor observations with the EISCAT UHF radar system and telescopic optical devices. The observed characteristics of 410 meteors detected by all three UHF receivers are compared with model simulations and their luminosity is calculated as a part of a meteoroid ablation model using a fifth order Runge-Kutta numerical integration technique. The estimated absolute visual magnitudes are in the range of +9 to +5. The meteors should therefore be observable using intensified CCD or EMCCD (Electron Multiplying CCD) cameras with telephoto lenses. A possible setup of a coordinated radar and optical campaign is suggested. [ABSTRACT FROM AUTHOR]

Published

2008

24. Improving the Accuracy of Meteoroid Mass Estimates from Head Echo Deceleration.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Bass, Elizabeth, Oppenheim, Meers, Chau, Jorge, and Olmstead, Alice

Abstract

This paper examines current techniques used to determine meteoroid mass from high-power, large aperture (HPLA) radar observations. We demonstrate why the standard approach of fitting a polynomial to velocity measurements gives inaccurate results by applying this technique to artificial datasets. We then suggest an alternate approach, fitting velocity data to an ablation model. Using data taken at the Jicamarca Radio Observatory in July 2005, we compare the results of both methods and demonstrate that fitting velocity data to an ablation model yields a reasonable result in some instances where alternate methods produce physically unrealistic mass estimates. [ABSTRACT FROM AUTHOR]

Published

2008

25. Radio and Meteor Science Outcomes From Comparisons of Meteor Radar Observations at AMISR Poker Flat, Sondrestrom, and Arecibo.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Mathews, J. D., Briczinski, S. J., Meisel, D. D., and Heinselman, C. J.

Abstract

Radio science and meteor physics issues regarding meteor "head-echo" observations with high power, large aperture (HPLA) radars, include the frequency and latitude dependency of the observed meteor altitude, speed, and deceleration distributions. We address these issues via the first ever use and analysis of meteor observations from the Poker Flat AMISR (PFISR: 449.3 MHz), Sondrestrom (SRF: 1,290 MHz), and Arecibo (AO: 430 MHz) radars. The PFISR and SRF radars are located near the Arctic Circle while AO is in the tropics. The meteors observed at each radar were detected and analyzed using the same automated FFT periodic micrometeor searching algorithm. Meteor parameters (event altitude, velocity, and deceleration distributions) from all three facilities are compared revealing a clearly defined altitude "ceiling effect" in the 1,290 MHz results relative to the 430/449.3 MHz results. This effect is even more striking in that the Arecibo and PFISR distributions are similar even though the two radars are over 2,000 times different in sensitivity and at very different latitudes, thus providing the first statistical evidence that HPLA meteor radar observations are dominated by the incident wavelength, regardless of the other radar parameters. We also offer insights into the meteoroid fragmentation and "terminal" process. [ABSTRACT FROM AUTHOR]

Published

2008

26. Global Detection of Infrasonic Signals from Three Large Bolides.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Arrowsmith, Stephen J., ReVelle, Doug, Edwards, Wayne, and Brown, Peter

Abstract

We present the infrasonic observations of three large bolides that were observed at numerous International Monitoring System (IMS) infrasound arrays on a global scale. First, a simple procedure for the global association of infrasound detections from large infrasound events is outlined. Infrasound signals are associated with large events based on arrival time, backazimuth and uniqueness at a given IMS array. Next, we apply the algorithm to three bolides and investigate some of the factors affecting the detectability of infrasound from large events. Our findings suggest that site-noise effects significantly degrade the capability of the IMS infrasound network, suggesting that more effort is required to reduce ambient site noise. These results have implications for the use of infrasound measurements (in particular those from IMS stations) as a tool for evaluating the global flux of near-Earth objects. [ABSTRACT FROM AUTHOR]

Published

2008

27. Acoustic-Gravity Waves from Bolide Sources.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., and ReVelle, Douglas O.

Abstract

We have developed a new approach to modeling the acoustic-gravity wave (AGW) radiation from bolide sources. This first effort involves entry modeling of bolide sources that have available satellite data through procedures developed in ReVelle (Earth Moon Planets 95, 441-476, 2004a; in: A. Milani, G. Valsecchi, D. Vokrouhlicky (eds) NEO Fireball Diversity: Energetics-based Entry Modeling and Analysis Techniques, Near-earth Objects: Our Celestial Neighbors (IAU S236), 2007b). Results from the entry modeling are directly coupled to AGW production through line source blast wave theory for the initial wave amplitude and period at $$x=10$$ (at 10 blast wave radii and perpendicular to the trajectory). The second effort involves the prediction of the formation and or dominance of the propagation of the atmospheric Lamb, edge-wave composite mode in a viscous fluid (Pierce, J. Acoust. Soc. Amer. 35, 1798-1807, 1963) as a function of the source energy, horizontal range and source altitude using the Lamb wave frequency that was deduced directly during the entry modeling and that is used as a surrogate for the source energy. We have also determined that Lamb wave production by bolides at close range decreases dramatically as either the source energy decreases or the source altitude increases. Finally using procedures in Gill (Atmospheric-Ocean Dynamics, 1982) and in Tolstoy (Wave Propagation, 1973), we have analyzed two simple dispersion relationships and have calculated the expected dispersion for the Lamb edge-wave mode and for the excited, propagating internal acoustic waves. Finally, we have used the above formalism to fully evaluate these techniques for four large bolides, namely: the Tunguska bolide of June 30, 1908; the Revelstoke bolide of March 31, 1965; the Crete bolide of June 6, 2002 and the Antarctic bolide of September 3, 2004. Due to page limitations, we will only present results in detail for the Revelstoke bolide. [ABSTRACT FROM AUTHOR]

Published

2008

28. Reanalysis of the Historic AFTAC Bolide Infrasound Database.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., ReVelle, Douglas O., Sukara, Elizabeth A., Edwards, Wayne N., and Brown, Peter G.

Abstract

We have recently digitized and partially reanalyzed the historic bolide infrasonic database. These 10 events were originally detected by the U.S. Air Force Technical Applications Center (AFTAC) from ∼1960 to 1974. In this paper we present the first preliminary reanalysis results for two of the 10 bolide events, namely the Revelstoke bolide of 3/31/1965 as well as the Prince Edward Islands (P.E.I). S. African bolide of 8/03/1963, which were among the largest bolides detected during this time period. These bolides have been investigated initially since they are most likely to have had a significant effect on the computed global influx rate of ReVelle (Global Infrasonic Monitoring of Large Bolides, pp 483-490, 2001) as indicated in Brown et al. (Nature, 420:314-316, 2002). We are in the process of recomputing all relevant infrasonic propagation quantities such as plane wave back azimuth, signal velocities, power spectra, spectrograms, as well as energy estimates using multiple techniques. In a future paper we will present a complete digital reanalysis of the AFTAC bolide infrasonic data and its final resulting global bolide influx implications. [ABSTRACT FROM AUTHOR]

Published

2008

29. What can We Learn about Atmospheric Meteor Ablation and Light Production from Laser Ablation?

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Hawkes, R. L., Milley, E. P., Ehrman, J. M., Woods, R. M., Hoyland, J. D., Pettipas, C. L., and Tokaryk, D. W.

Abstract

Laboratory based laser ablation techniques can be used to study the size of the luminous region, predict spectral features, estimate the luminous efficiency factor, and assess the role of chemically differentiated thermal ablation. A pulsed Nd:YAG laser was used to ablate regions from ordinary and carbonaceous chondrite meteorites. CCD cameras and a digital spectroscope were used to measure the size and spectrum from the cloud of vaporised material. Scanning electron microscope (SEM) based energy dispersive x-ray spectroscopy (EDS) provided elemental abundance values in ablated and unablated regions. These results indicated some degree of differential ablation, with the most significant effect being significant loss of carbon from carbonaceous chondrites. This work suggests that a carbon matrix may play the role of the glue in the two component dustball model. [ABSTRACT FROM AUTHOR]

Published

2008

30. Development of an Automatic Echo-counting Program for HROFFT Spectrograms.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Noguchi, Kazuya, and Yamamoto, Masa-yuki

Abstract

Radio meteor observations by Ham-band beacon or FM radio broadcasts using "Ham-band Radio meteor Observation Fast Fourier Transform" (HROFFT) an automatic operating software have been performed widely in recent days. Previously, counting of meteor echoes on the spectrograms of radio meteor observation was performed manually by observers. In the present paper, we introduce an automatic meteor echo counting software application. Although output images of the HROFFT contain both the features of meteor echoes and those of various types of noises, a newly developed image processing technique has been applied, resulting in software that enables a useful auto-counting tool. There exists a slight error in the processing on spectrograms when the observation site is affected by many disturbing noises. Nevertheless, comparison between software and manual counting revealed an agreement of almost 90%. Therefore, we can easily obtain a dataset of detection time, duration time, signal strength, and Doppler shift of each meteor echo from the HROFFT spectrograms. Using this software, statistical analyses of meteor activities is based on the results obtained at many Ham-band Radio meteor Observation (HRO) sites throughout the world, resulting in a very useful "standard" for monitoring meteor stream activities in real time. [ABSTRACT FROM AUTHOR]

Published

2008

31. Physical Characteristics of Kazan Minor Showers as Determined by Correlations with the Arecibo UHF Radar.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Meisel, David D., Kero, Johan, Szasz, Csilla, Sidorov, Vladimir, and Briczinski, Stan

Abstract

In the northern hemisphere, the month of February is characterized by a lack of major meteor shower activity yet a number of weak minor showers are present as seen by the Kazan radar. Using the Feller transformation to obtain the distribution of true meteor velocities from the distribution of radial velocities enables the angle of incidence to be obtained for the single beam AO (Arecibo Observatory) data. Thus the loci of AO radiants become beam-centered circles on the sky and one can, with simple search routines, find where these circles intersect on radiants determined by other means. Including geocentric velocity as an additional search criterion, we have examined a set of February radiants obtained at Kazan for coincidence in position and velocity. Although some may be chance associations, only those events with probabilities of association > 0.5 have been kept. Roughly 90 of the Kazan showers have been verified in this way with mass, radius and density histograms derived from the AO results. By comparing these histograms with those of the "background" in which the minor showers are found, a qualitative scale of dynamical minor shower age can be formulated. Most of the showers are found outside the usual "apex" sporadic source areas where it is easiest to detect discrete showers with less confusion from the background. [ABSTRACT FROM AUTHOR]

Published

2008

32. Meteor Orbit Determinations with Multistatic Receivers Using the MU Radar.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Fujiwara, Yasunori, Hamaguchi, Yoshiyuki, Nakamura, Takuji, Tsutsumi, Masaki, and Abo, Makoto

Abstract

The MU radar of RISH (Research Institute for Sustainable Humanosphere, Kyoto University), which is a MST radar (46.5 MHz, 1 MW peak power), has been successfully applied to meteor studies by using its very high versatility. The system has recently renewed with 25 channel digital receivers which significantly improved the sensitivity and precision of interferometer used in meteor observation. The transmission is now synchronized to GPS signals, and two external receiving sites with a ranging capability has additionally been operated in order to determine the trajectories and speeds of meteoroids. [ABSTRACT FROM AUTHOR]

Published

2008

33. Algorithms for Lunar Flash Video Search, Measurement, and Archiving.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Swift, Wesley, Suggs, Robert, and Cooke, Bill

Abstract

Lunar meteoroid impact flashes provide a method to estimate the flux of the large meteoroid flux and thus their hazard to spacecraft. Although meteoroid impacts on the Moon have been detected using video methods for over a decade, the difficulty of manually searching hours of video for the rare, extremely brief impact flashes has discouraged the technique's systematic implementation. A prototype has been developed for the purpose of automatically searching lunar video records for impact flashes, eliminating false detections, editing the returned possible flashes, and archiving and documenting the results. Several utilities for measurement, analysis, and location of the flashes on the moon included in the program are demonstrated. Application of the program to a year's worth of lunar observations is discussed along with examples of impact flashes. [ABSTRACT FROM AUTHOR]

Published

2008

34. The NASA Lunar Impact Monitoring Program.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Suggs, Robert M., Cooke, William J., Suggs, Ronnie J., Swift, Wesley R., and Hollon, Nicholas

Abstract

NASA's Meteoroid Environment Office has implemented a program to monitor the Moon for meteoroid impacts from the Marshall Space Flight Center. Using off-the-shelf telescopes and video equipment, the Moon is monitored for as many as 10 nights per month, depending on weather. Custom software automatically detects flashes which are confirmed by a second telescope, photometrically calibrated using background stars, and published on a website for correlation with other observations. Hypervelocity impact tests at the Ames Vertical Gun Range facility have begun to determine the luminous efficiency and ejecta characteristics. The purpose of this research is to define the impact ejecta environment for use by lunar spacecraft designers of the Constellation manned lunar program. The observational techniques and preliminary results will be discussed. [ABSTRACT FROM AUTHOR]

Published

2008

35. Updates to the MSFC Meteoroid Stream Model.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Moser, Danielle E., and Cooke, William J.

Abstract

The Marshall Space Flight Center (MSFC) Meteoroid Stream Model simulates particle ejection and subsequent evolution from comets in order to provide meteor shower forecasts to spacecraft operators for hazard mitigation and planning purposes. The model, previously detailed in Moser and Cooke (Earth Moon Planets 95, 141 (2004)), has recently been updated; the changes include the implementation of the RADAU integrator, an improved planetary treatment, and the inclusion of general relativistic effects in the force function. The results of these updates are investigated with respect to various meteoroid streams and the outcome presented. [ABSTRACT FROM AUTHOR]

Published

2008

36. "Falling Star": Software for Processing of Double-Station TV Meteor Observations.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., and Kozak, Pavlo

Abstract

Software named "Falling Star" has been developed for digital processing of double-station TV meteor observations. It was designed for measurement and calculation of both kinematic and photometric parameters of faint meteors observed with any video system. Data from video recordings are first digitized as standard AVI files, and then converted into the software's TVS (TV sequence) format. Additional astronomical information like date, time of observations, geographic position of point of the observation and horizontal coordinates of TV camera optical axis orientation are added to the files. These parameters allow the right ascension and declination of the optical center of camera for the moment of meteor flight to be calculated. "Falling Star" includes a range of automated procedures for the identification of frame stars with star catalogues, search of movable meteor-like objects inside frame, calculation of equatorial coordinates and photometry. Finally, meteor trajectory parameters, orbital elements and brightness curves are calculated. Errors of calculations are determined using Monte-Carlo method. [ABSTRACT FROM AUTHOR]

Published

2008

37. The Armagh Observatory Meteor Camera Cluster: Overview and Status.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Atreya, Prakash, and Christou, Apostolos

Abstract

Armagh Observatory installed a sky monitoring system consisting of two wide angle (90° × 52°) and one medium angle (52° × 35°) cameras in July 2005. The medium angle camera is part of a double station setup with a similar camera in Bangor, ~73 km ENE of Armagh. All cameras use UFOCapture to record meteors automatically; software for off-line photometry, astrometry and double station calculations is currently being developed. The specifications of the cameras and cluster configuration are described in detail. 2425 single station meteors (1167, 861 and 806 by the medium-angle and the wide-angle cameras respectively) and 547 double station meteors were recorded during the months July 2005 to Dec 2006. About 212 double station meteors were recorded by more than one camera in the cluster. The effects of weather conditions on camera productivity are discussed. The distribution of single and double station meteor counts observed for the years 2005 and 2006 and calibrated for weather conditions are presented. [ABSTRACT FROM AUTHOR]

Published

2008

38. A New Bolide Station at the High Tatra Mountains.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Svoren, Jan, Spurny, Pavel, Porubcan, Vladimir, and Kanuchova, Zuzana

Abstract

The European Fireball Network (EN) is operating since 1963 and one of its stable stations, from the very beginning, is the station at the Skalnate Pleso Observatory in the High Tatras. The station is sited at a height of 1788 m. More than 2900 expositions has been made at the Skalnate Pleso station since 1964 and among them one significant and spectacular event was recorded--bolide Turji-Remety in 2001 followed by a fall of about 450 kg meteorite (Spurny and Porubcan [in: Warmbein (ed.) Asteroids Comets Meteors, 2002]). A systematic search for the meteorite was unsuccessful. The new station having an ideal horizon will be operating since July 2007 on the top of Lomnicky Stit (2636 m above the sea level). This station will be equipped with an Autonomous Fireball Observatory of the Astronomical Institute of the Czech Academy of Sciences, which are already utilized in the Czech part of the EN for several years. [ABSTRACT FROM AUTHOR]

Published

2008

39. The IMO Virtual Meteor Observatory (VMO): Architectural Design.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Koschny, Detlef, Mc Auliffe, Jonathan, and Barentsen, Geert

Abstract

This paper describes the progress on the Virtual Meteor Observatory (VMO), a database which is being developed at ESA/RSSD to store video meteor observations and their derived orbits. The VMO was triggered by a discussion which took place at the first Meteor Orbit Determination (MOD) workshop in Roden, The Netherlands, in September 2006. Representatives of 15 groups working on the determination of meteor orbits and working with the resulting orbits discussed the design and implementation of a database which would combine different meteor orbit datasets. From this the concept of the VMO was born, which will, in the long run, allow accessing meteor observations via the internet. In the beginning, it will focus on meteor orbit data obtained with video systems. This paper presents the architectural design of the database as it has been defined in the meantime. [ABSTRACT FROM AUTHOR]

Published

2008

40. Determination of Meteoroid Orbits and Spatial Fluxes by Using High-Resolution All-Sky CCD Cameras.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Trigo-Rodriguez, Josep M., Madiedo, José M., Gural, Peter S., Castro-Tirado, Alberto J., Llorca, Jordi, Fabregat, Juan, Vítek, Standa, and Pujols, Pep

Abstract

By using high-resolution, low-scan-rate, all-sky CCD cameras, the SPanish Meteor Network (SPMN) is currently monitoring meteor and fireball activity on a year round basis. Here are presented just a sampling of the accurate trajectory, radiant and orbital data obtained for meteors imaged simultaneously from two SPMN stations during the continuous 2006-2007 coverage of meteor and fireball monitoring. Typical astrometric uncertainty is 1-2 arc min, while velocity determination errors are of the order of 0.1-0.5 km/s, which is dependent on the distance of each event to the station and its particular viewing geometry. The cameras have demonstrated excellent performance for detecting meteor outbursts. The recent development of automatic detection software is also providing real-time information on the global meteor activity. Finally, some examples of the all-sky CCD cameras applications for detecting unexpected meteor activity are given. [ABSTRACT FROM AUTHOR]

Published

2008

41. The Southern Ontario All-sky Meteor Camera Network.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Weryk, R. J., Brown, P. G., Domokos, A., Edwards, W. N., Krzeminski, Z., Nudds, S. H., and Welch, D. L.

Abstract

We have developed an automated network of all-sky CCD video systems to detect medium-large meteoroids ablating over Southern Ontario, Canada. The system currently consists of five stations with the largest baseline being 180 km. Each site runs a video rate recorder with sufficient resolution to determine meteoroid trajectories with a typical precision of about 300 m but no worse than 1 km. The sensitivity of the camera is close to a stellar visual magnitude of +1 which allows for astrometric calibrations using field stars. Photometric procedures have also been developed and tested. The system has a limiting magnitude for meteors of about −2 with the current detection algorithm. [ABSTRACT FROM AUTHOR]

Published

2008

42. Infrasonic Observations of Meteoroids: Preliminary Results from a Coordinated Optical-radar-infrasound Observing Campaign.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Edwards, Wayne N., Brown, Peter G., Weryk, Robert J., and ReVelle, Douglas O.

Abstract

Recent observations using the newly installed Elginfield infrasound array in coordination with the Southern Ontario all-sky meteor camera network and Canadian Meteor Orbit Radar (CMOR) has shown that the number of meteors producing infrasound at the Earth's surface is more frequent than previously thought. These data show the flux of meteoroids capable of producing infrasound at the ground is at least 1/month and is limited to meteors with peak visual brightness above −2. Comparisons to current meteor infrasound theory show excellent agreement with amplitude and period predictions for weakly non-linear shock waves using a realistic vertically inhomogeneous atmosphere. Similar predictions show isothermal assumptions underestimate the amplitude by orders of magnitude. [ABSTRACT FROM AUTHOR]

Published

2008

43. The Canadian Meteor Orbit Radar Meteor Stream Catalogue.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Brown, Peter, Weryk, Robert J., Wong, Daniel K., and Jones, James

Abstract

The Canadian Meteor Orbit Radar is a multi-frequency backscatter radar which has been in routine operation since 1999, with an orbit measurement capability since 2002. In total, CMOR has measured over 2 million orbits of meteoroids with masses greater than 10 μg, while recording more than 18 million meteor echoes in total. We have applied a two stage comparative technique for identifying meteor streams in this dataset by making use of clustering in radiants and velocities without employing orbital element comparisons directly. From the large dataset of single station echoes, combined radiant activity maps have been constructed by binning and then stacking each years data per degree of solar longitude. Using the single-station mapping technique described in Jones and Jones (Mon Not R Astron Soc 367:1050-1056, 2006) we have identified probable streams from these single station observations. Additionally, using individual radiant and velocity data from the multi-station velocity determination routines, we have utilized a wavelet search algorithm in radiant and velocity space to construct a list of probable streams. These two lists were then compared and only streams detected by both techniques, on multiple frequencies and in multiple years were assigned stream status. From this analysis we have identified 45 annual minor and major streams with high reliability. [ABSTRACT FROM AUTHOR]

Published

2008

44. Determination of the Velocity of Meteors Based on Sinodial Modulation and Frequency Analysis.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., and Bettonvil, Felix

Abstract

In meteor photography the velocity of meteors is generally obtained from a chopper which blocks periodically the incident light beam in front of the camera lens. In this paper I examine modulation of the meteor trail instead with a sinodial function and use frequency analysis to compute accurately the mean atmospheric velocity. [ABSTRACT FROM AUTHOR]

Published

2008

45. Dynamical Effects of Mars on Asteroidal Dust Particles.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Espy, Ashley J., Dermott, Stanley F., and Kehoe, Thomas J. J.

Abstract

Asteroidal dust particles resulting from family-forming events migrate from their source locations in the asteroid belt inwards towards the Sun under the effect of Poynting-Robertson (PR) drag. Understanding the distribution of these dust particle orbits in the inner solar system is of great importance to determining the asteroidal contribution to the zodiacal cloud, the accretion rate by the Earth, and the threat that these particles pose to spacecraft and satellites in near-Earth space. In order to correctly describe this distribution of orbits in the inner solar system, we must track the dynamical perturbations that the dust particle orbits experience as they migrate inwards. In a seminal paper Öpik (1951) determines that very few of the μm-cm sized dust particles suffer a collision with the planet face as they decay inwards past Mars. Here we re-analyze this problem, considering additionally the likelihood that the dust particle orbits pass through the Hill sphere of Mars (to various depths) and experience potentially significant perturbations to their orbits. We find that a considerable fraction of dust particle orbits will enter the Hill sphere of Mars. Furthermore, we find that there is a bias with inclination, particle size, and eccentricity of the particle orbits that enter the Martian Hill sphere. In particular the bias with inclination may create a bias towards higher-inclination sources in the proportions of asteroid family particles that reach near-Earth space. [ABSTRACT FROM AUTHOR]

Published

2008

46. Comparison of Meteoroid Flux Models for Near Earth Space.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Drolshagen, Gerhard, Dikarev, Valeri, Landgraf, Markus, Krag, Holger, and Kuiper, Wim

Abstract

Over the last decade several new models for the sporadic interplanetary meteoroid flux have been developed. These include the Divine-Staubach and the Dikarev model. They typically cover mass ranges from 10−18 g to 1 g and are applicable for model specific Sun distance ranges between 0.1 AU and 20 AU Near 1 AU averaged fluxes (over direction and velocities) for all these models are tuned to the well established interplanetary model by Grün et al. However, in many respects these models differ considerably. Examples are the velocity and directional distributions and the assumed meteoroid sources. In this paper flux predictions by the various models to Earth orbiting spacecraft are compared. Main differences are presented and analysed. The persisting differences even for near Earth space can be seen as surprising in view of the numerous ground based (optical and radar) and in situ (captured Inter Stellar Dust Particles, in situ detectors and analysis of retrieved hardware) measurements and simulations. [ABSTRACT FROM AUTHOR]

Published

2008

47. Lunar Gravitational Focusing of Meteoroid Streams and Sporadic Sources.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., and Gural, Peter S.

Abstract

Recent work on the gravitational focusing of meteoroid streams and their threat to satellites and astronauts in the near-Earth environment has concentrated on Earth acting as the gravitational attractor, totally ignoring the Moon. Though the Moon is twelve-thousandths the mass of the Earth, it too can focus meteors, albeit at a much greater distance downstream from its orbital position in space. At the Earth-Moon distance during particular phases of the Moon, slower speed meteoroid streams with very compact radiant diameters can show meteoroid flux enhancements in Earth's immediate neighborhood. When the right geometric alignment occurs, this arises as a narrowed beam of particles of approximately 1,000 km width. For a narrow radiant of one-tenth degree diameter there is a 10-fold increase in the level of flux passing through the near-Earth environment. Meteoroid streams with more typical radiant sizes of 1° show at most two times enhancement. For sporadic sources, the enhancement is found to be insignificant due to the wide angular spread of the diffuse radiant and thus may be considered of little importance. [ABSTRACT FROM AUTHOR]

Published

2008

48. Motion of a Meteoroid Released from an Asteroid.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Vereš, Peter, Klačka, Jozef, Kómar, Ladislav, and Tóth, Juraj

Abstract

Evidence of asteroid surface features as regolith grains and larger boulders implies resurfacing possibility due to external forces such as gravitational tidal force during close planet encounters. Motion of a meteoroid released from an asteroid in the gravitational fields of the asteroid and the Earth is modeled. We are interested mainly in a distance between the meteoroid and the asteroid as a function of the time. Applications to Itokawa and some close approaching NEAs are presented. [ABSTRACT FROM AUTHOR]

Published

2008

49. On the Substantial Spatial Spread of the Quadrantid Meteoroid Stream.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Ohtsuka, K., Yoshikawa, M., Watanabe, J., Hidaka, E., Murayama, H., and Kasuga, T.

Abstract

We explored the substantial spatial spread of the Quadrantid stream, based on the backward integration of orbital motions of the Quadrantids, impulsively perturbed by Jupiter. We found that the Jovian impulses can widely spread out them in the early twentieth century, especially their perihelia extended by a factor of ~90 than those at the observed epoch. We regarded the spread as the intrinsic one of the Quadrantid stream itself. [ABSTRACT FROM AUTHOR]

Published

2008

50. Characterization of the Meteoroid Spatial Flux Density during the 1999 Leonid Storm.

Author

Trigo-Rodríguez, J. M., Rietmeijer, F. J. M., Llorca, J., Janches, D., Gural, Peter S., and Jenniskens, Peter

Abstract

The November 18, 1999 Leonid storm was rich in meteors and well observed by airborne intensified video cameras aimed low in the sky which enabled enhanced meteor counts over ground-based observations. The two- and three-dimensional distribution of meteoroids was investigated for signs of clustering that could provide evidence of meteoroid fragmentation shortly after lift-off from the parent comet 55P/Tempel-Tuttle, or much later due to space weathering. Analysis of the video tapes yields a refined estimation of the mass ratio during the peak of s = 1.65 and spatial flux density of 0.5 particles/km2 greater than those causing visual magnitude +6.5 during the 5 min centered around the peak of the storm. Furthermore, the projection of the individual trails into three-dimensional Heliocentric coordinates, shows non-homogeneity of the stream on spatial scales from hundreds to thousands of kilometers. [ABSTRACT FROM AUTHOR]

Published

2008