DOCSLIB.ORG

ONU Scopus.Pdf

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
ONU Scopus.Pdf Effects of environmental and exciton screening in single-walled carbon nanotubes. Adamyan, V.M., Smyrnov, O.A., 13 Адам’ян В. М. Scopus Tishchenko, S.V. Journal of Physics: Conference Series. 2008, 129 Electrical conductivity of dense non-ideal plasmas in external HF electric field. Tkachenko, I.M., Adamyan, V.M., Mihajlov, 14 Адам’ян В. М. Scopus A.A., Sakan, N.M., Ulić, D., Srećković, V.A. Journal of Physics A: Mathematical and General. 2006, 39 (17), pp.4693 Energy-loss spectrum for inelastic scattering of charged particles in disordered systems near the critical point. Gerasimov, 15 Адам’ян В. М. Scopus O.I., Adamian, V.M. Physical Review A. 1989, 39 (12), pp.6573 Existence and uniqueness of contractive solutions of some Riccati equations. Adamjan, V., Langer, H., Tretter, C. Journal of 16 Адам’ян В. М. Scopus Functional Analysis. 2001, 179 (2), pp.448 High-frequency characteristics of weakly and moderately non-ideal plasmas in an external electric field. Mihajlov, A.A., 17 Адам’ян В. М. Scopus Djuric, Z., Adamyan, V.M., Sakan, N.M. Journal of Physics D: Applied Physics. 2001, 34 (21), pp.3139 HIGH-FREQUENCY ELECTRIC CONDUCTIVITY OF A COLLISIONAL PLASMA.Adamyan, V.M., Tkachenko, I.M. 18 Адам’ян В. М. Scopus High Temperature. 1983, 21 (3), pp.307 Infinite hankel matrices and generalized carathéodory - fejer and riesz problems. Adamyan, V.M., Arov, D.Z., Krein, M.G. 19 Адам’ян В. М. Scopus Functional Analysis and Its Applications. 1968, 2 (1), pp.1 Infinite Hankel matrices and generalized caretheodory-fejer and I. schur Problems. Adamyan, V.M., Arov, D.Z., Krein, M.G. 20 Адам’ян В. М. Scopus Functional Analysis and Its Applications. 1968, 2 (4), pp.269 Kinematic technique of ideal gas thermodynamic surface forming. Adamyan, V., Zayimtsyan, G., Adamyan, V. 2003, 2003 21 Адам’ян В. М. Scopus International Conference Physics and Control, PhysCon 2003 - Proceedings 1, pp.210 Kinetic coefficients of fully ionized plasmas. Adamyan, V.M., Djuric, Z., Ermolaev, A.M., Mihajlov, A.A., Tkachenko, 22 Адам’ян В. М. Scopus I.M.Journal of Physics D: Applied Physics. 1994, 27 (5), pp.927 Large radius excitons in single-walled carbon nanotubes. Adamyan, V.M., Smyrnov, O.A. 2007, Journal of Physics A: 23 Адам’ян В. М. Scopus Mathematical and Theoretical 40 (34), pp.10519 Lattice thermal conductivity of graphene with conventionally isotopic defectsю Adamyan, V., Zavalniuk, V. Journal of 24 Адам’ян В. М. Scopus Physics Condensed Matter 2012, 24 (41) Linear diatomic crystal: Single-electron states and large-radius excitons. Adamyan, V.M., Smyrnov, O.A. Low Temperature 25 Адам’ян В. М. Scopus Physics. 2009, 35 (5), pp.394 Linear, diatomic crystal: Single-electron states and large-radius excitons. Adamyan, V.M., Smyrnov, O.A. Fizika Nizkikh 26 Адам’ян В. М. Scopus Temperatur (Kharkov). 2009, 35 (5), pp.503 Local scattering problem and a solvable model of quantum network. Adamyan, V., Pavlov, B. Operator Theory: Advances and 27 Адам’ян В. М. Scopus Applications. 2010, 198, pp.1 28 Адам’ян В. М. Mark grigor’evich krein (on his seventieth birthday). Adamyan, V. Russian Mathematical Surveys. 1978, 33 (3), pp.185 Scopus Nondegenerate unitary couplings of semiunitary operators. Adamyan, V.M. Functional Analysis and Its Applications. 1973, 7 29 Адам’ян В. М. Scopus (4), pp.255 Null-range potentials and M. G. Krein's formula for generalized resolvents. Adamyan, V.M., Pavlov, B.S. Journal of Soviet 30 Адам’ян В. М. Scopus Mathematics. 1988, 42 (2), pp.1537 On a class of non-self-ad joint quadratic matrix operator pencils arising in elasticity theory. Adamjan, V., Pivovarchik, V., 31 Адам’ян В. М. Scopus Tretter, C. Journal of Operator Theory. 2002, 47 (2), pp.325 On the absolutely continuous subspace for non-selfadjoint operators. Adamyan, V.M., Neidhardt, H.Mathematische 32 Адам’ян В. М. Scopus Nachrichten. 2000, 210, pp.5. One-electron states and interband optical absorption in single-wall carbon nanotubes. Adamyan, V., Tishchenko, S. Journal of 33 Адам’ян В. М. Scopus Physics Condensed Matter. 2007, 19 (18) Optical HF electrical permeability, refractivity and reflectivity of dense non-ideal plasmas. Adamyan, V.M., Grubor, D., 34 Адам’ян В. М. Mihajlov, A.A., Sakan, N.M., Srećković, V.A., Tkachenko, I.M. Journal of Physics A: Mathematical and General. 2006, 39 Scopus (17), pp.4401 35 Адам’ян В. М. Phonons in graphene with point defects. Adamyan, V., Zavalniuk, V. Journal of Physics Condensed Matter. 2011, 23 (1) Scopus Reconstruction of distributions by their moments and local constraints. Adamyan, V.M., Alcober, J., Tkachenko, I.M. Applied 36 Адам’ян В. М. Scopus Mathematics Research eXpress. 2004, 2003, pp.33 Solution of the Stieltjes truncated moment problem. Adamyan, V.M., Tkachenko, I.M., Urrea, M. Journal of Applied 37 Адам’ян В. М. Scopus Analysis. 2003, 9 (1), pp.57 Some limit relations for multidimensional positive-definite toeplitz matrices. Adamyan, V.M. Functional Analysis and Its 38 Адам’ян В. М. Scopus Applications. 1988, 22 (1), pp.44 Spectral components of selfadjoint block operator matrices with unbounded entries. Adamyan, V., Langer, H., Mennicken, R., 39 Адам’ян В. М. Scopus Saurer, J.Mathematische Nachrichten. 1996, 178, pp.43 Statistical structure of the energy loss spectrum of charged particles scattered in disordered media. Adamyan, V.M., 40 Адам’ян В. М. Scopus Gerasimov, O.I. Theoretical and Mathematical Physics. 1988, 74 (3), pp.279 Sum rules and exact relations for quantal Coulomb systems. Adamyan, V.M., Tkachenko, I.M. Contributions to Plasma 41 Адам’ян В. М. Scopus Physics. 2003, 43 (5-6), pp.252 Surface waveguide states and nanocatalyst activity. Adamyan, V.M., Popov, I.Y., Blinova, I.V. Electronic Journal of 42 Адам’ян В. М. Scopus Theoretical Physics. 2016, 13 (35), pp.173 The dynamic conductivity of strongly non-ideal plasmas: Is the Drude model valid? Adamyan, V.M., Mihajlov, A.A., Sakan, 43 Адам’ян В. М. Scopus N.M., Srećković, V.A., Tkachenko, I.M. Journal of Physics A: Mathematical and Theoretical. 2009, 42 (21) The RPA conductivity of fully ionized plasmas in a magnetic field. Adamyan, V.M., Djuric, Z., Ermolaev, A.M., Mihajlov, 44 Адам’ян В. М. Scopus A.A., Tkachenko, I.M. Journal of Physics D: Applied Physics. 1994, 27 (1), pp.111 The self-consistent determination of HF electroconductivity of strongly coupled plasmas. Srećković, V.A., Adamyan, V.M., 45 Адам’ян В. М. Scopus Ignjatović, Lj.M., Mihajlov, A.A. Physics Letters, Section A: General, Atomic and Solid State Physics. 2010, 374 (5), pp.754 The spectral shift function for certain block operator matrices. Adamjan, V., Langer, H.Mathematische Nachrichten. 2000, 46 Адам’ян В. М. Scopus 211, pp.5 Truncated Hamburger moment problems with constraints. Adamyan, V.M., Tkachenko, I.M. North-Holland Mathematics 47 Адам’ян В. М. Scopus Studies. 2001, 189 (C), pp.321 Wave-equation scattering in even-dimensional spaces. Adamyan, V.M. Functional Analysis and Its Applications. 1976, 10 (1), 48 Адам’ян В. М. Scopus pp.1 X-ray-absorption problem in metals within the one-electron approximation. Adamjan, V.M., Ortner, J., Salistra, A.G., 49 Адам’ян В. М. Scopus Tkachenko, I.M.Physical Review. 1995, B 52 (19), pp.13827 [Anti-inflammatory effect of therapeutic and low-frequency ultrasound on a rat model of inflammatory process]. Kravchenko, 50 Александрова О. І. Scopus I.A., Kobernik, A.A., Aleksandrova, A.I., Prystupa, B.V., Lepikh, I.I., shegur, P.A. Biofizika. 2013, 58 (3), pp.540 A comparative study of 3-hydroxyphenazepam and its metabolites upon transdermal and intravenous administration in mice. 51 Александрова О. І. Larionov, V.B., Golovenko, N.Ya., Kravchenko, I.A., Aleksandrova, A.I., Ovcharenko, N.V. Eksperimental'naya i Scopus Klinicheskaya Farmakologiya. 2003, 66 (3), pp.53 Anti-inflammatory action of therapeutic and low-frequency ultrasound on the inflammatory process model on rats. 52 Александрова О. І. Kravchenko, I.A., Kobernik, A.A., Aleksandrova, A.I., Prystupa, B.V., Lepikh, Y.I., Snegur, P.A. Biophysics (Russian Scopus Federation). 2013, 58 (3), pp.423 Biokinetics of transdermal 3-hydroxyphenazepam. Golovenko, N.Ya., Larionov, V.B., Kravchenko, I.A., Ovcharenko, N.V., 53 Александрова О. І. Scopus Aleksandrova, A.I. Bulletin of Experimental Biology and Medicine. 2002, 134 (3), pp.254 Biokinetics of transdermal therapeutic medicinal form of phenazepam. Golovenko, N.Y., Kravchenko, I.A., Zin'kovskii, V.G., 54 Александрова О. І. Andronati, S.A., Aleksandrova, A.I., Ovcharenko, N.V., Larionov, V.B. Bulletin of Experimental Biology and Medicine. Scopus 2000, 130 (12), pp.1153 Effect of lauric acid on transdermal penetration of phenazepam in vivo. Kravchenko, I.A., Golovenko, N.Ya., Larionov, V.B., 55 Александрова О. І. Scopus Aleksandrova, A.I., Ovcharenko, N.V. Bulletin of Experimental Biology and Medicine. 2003, 136 (6), pp.579 Effect of skin permeability enhancers on the transdermal introduction of phenazepam studied in vitro. Kravchenko, I.A., 56 Александрова О. І. Larionov, V.B., Aleksandrova, A.I., Ovcharenko, N.V., Polishchuk, A.A., Andronati, S.A. Pharmaceutical Chemistry Journal. Scopus 2003, 37 (7), pp.369 Synthesis and Anti-Inflammatory Activity of Novel Calix[4]Arene Derivatives Containing an Ibuprofen Residue. Kravchenko, 57 Александрова О. І. Scopus I.A., Alekseeva, E.A., Aleksandrova, A.I., Kobernik, A.A. Pharmaceutical Chemistry Journal. 2015, 49 (3), pp.163 [Quantitative characters of male generative structures cells of wheat, rye and wheat-rye hybrids during microsporogenesis]. 58 Алєкєєва (Трочинська) Т. Г. Scopus Trochinskaia, T.G., Blankovskaia, T.F., Totskiǐ, V.N. TSitologiia i genetika. 2010, 44 (4), pp.48 Cytological markers of R-RNA gene expression during microsporogenesis in rye, wheat and wheat-rye hybrids.
Load more

Recommended publications
  • Astronomie in Theorie Und Praxis 8. Auflage in Zwei Bänden Erik Wischnewski
    Astronomie in Theorie und Praxis 8. Auflage in zwei Bänden Erik Wischnewski Inhaltsverzeichnis 1 Beobachtungen mit bloßem Auge 37 Motivation 37 Hilfsmittel 38 Drehbare Sternkarte Bücher und Atlanten Kataloge Planetariumssoftware Elektronischer Almanach Sternkarten 39 2 Atmosphäre der Erde 49 Aufbau 49 Atmosphärische Fenster 51 Warum der Himmel blau ist? 52 Extinktion 52 Extinktionsgleichung Photometrie Refraktion 55 Szintillationsrauschen 56 Angaben zur Beobachtung 57 Durchsicht Himmelshelligkeit Luftunruhe Beispiel einer Notiz Taupunkt 59 Solar-terrestrische Beziehungen 60 Klassifizierung der Flares Korrelation zur Fleckenrelativzahl Luftleuchten 62 Polarlichter 63 Nachtleuchtende Wolken 64 Haloerscheinungen 67 Formen Häufigkeit Beobachtung Photographie Grüner Strahl 69 Zodiakallicht 71 Dämmerung 72 Definition Purpurlicht Gegendämmerung Venusgürtel Erdschattenbogen 3 Optische Teleskope 75 Fernrohrtypen 76 Refraktoren Reflektoren Fokus Optische Fehler 82 Farbfehler Kugelgestaltsfehler Bildfeldwölbung Koma Astigmatismus Verzeichnung Bildverzerrungen Helligkeitsinhomogenität Objektive 86 Linsenobjektive Spiegelobjektive Vergütung Optische Qualitätsprüfung RC-Wert RGB-Chromasietest Okulare 97 Zusatzoptiken 100 Barlow-Linse Shapley-Linse Flattener Spezialokulare Spektroskopie Herschel-Prisma Fabry-Pérot-Interferometer Vergrößerung 103 Welche Vergrößerung ist die Beste? Blickfeld 105 Lichtstärke 106 Kontrast Dämmerungszahl Auflösungsvermögen 108 Strehl-Zahl Luftunruhe (Seeing) 112 Tubusseeing Kuppelseeing Gebäudeseeing Montierungen 113 Nachführfehler
    [Show full text]
  • Where Are the Distant Worlds? Star Maps
    W here Are the Distant Worlds? Star Maps Abo ut the Activity Whe re are the distant worlds in the night sky? Use a star map to find constellations and to identify stars with extrasolar planets. (Northern Hemisphere only, naked eye) Topics Covered • How to find Constellations • Where we have found planets around other stars Participants Adults, teens, families with children 8 years and up If a school/youth group, 10 years and older 1 to 4 participants per map Materials Needed Location and Timing • Current month's Star Map for the Use this activity at a star party on a public (included) dark, clear night. Timing depends only • At least one set Planetary on how long you want to observe. Postcards with Key (included) • A small (red) flashlight • (Optional) Print list of Visible Stars with Planets (included) Included in This Packet Page Detailed Activity Description 2 Helpful Hints 4 Background Information 5 Planetary Postcards 7 Key Planetary Postcards 9 Star Maps 20 Visible Stars With Planets 33 © 2008 Astronomical Society of the Pacific www.astrosociety.org Copies for educational purposes are permitted. Additional astronomy activities can be found here: http://nightsky.jpl.nasa.gov Detailed Activity Description Leader’s Role Participants’ Roles (Anticipated) Introduction: To Ask: Who has heard that scientists have found planets around stars other than our own Sun? How many of these stars might you think have been found? Anyone ever see a star that has planets around it? (our own Sun, some may know of other stars) We can’t see the planets around other stars, but we can see the star.
    [Show full text]
  • Meteor Csillagászati Évkönyv 1998
    meteor csillagászati évkönyv 1998 . ( L f » ■ t r f l Születő bolygórendszerek az Orion-ködben ' A MAGYAR CSILLAGASZATI EGYESÜLET | Qm - könyvtára meteor csillagászati évkönyv 1998 szerkesztette: Benkő József Holl András Mizser Attila Taracsák Gábor Magyar Csillagászati Egyesület Budapest, 1997 Az évkönyv összeállításában közreműködött: Jean Meeus (Belgium) Sárneczky Krisztián Szakmailag ellenőrizte: Csaba György Gábor Szabados László Műszaki szerkesztés és illusztrációk: Taracsák Gábor A szerkesztés és a kiadás támogatói: MLog Műszereket Gyártó és Forgalmazó Kft. MTA Csillagászati Kutatóintézete Nógrád Megyei Csillagászati Alapítvány Horváth Ferenc Horváth Tibor ISSN 0866-2851 Felelős kiadó: Mizser Attila Készült a G-PRINT BT. nyomdájában Felelős vezető: Wilpert Gábor Terjedelem: 17.75 ív + 4 oldal melléklet Példányszám: 4000 1997. október Csillagászati évkönyv 1998 5 Tartalom Tartalom B evezető..........................................................................................................................7 Használati útm utató..................................................................................................... 8 Táblázatok Jelenségnaptár ............................................................................................................14 A bolygók kelése és nyugvása (ábra) .................................................................... 38 A bolygók adatai ........................................................................................................40 A bolygók kitérése a Naptól (ábra)
    [Show full text]
  • Program and Abstract Book
    Program and Abstract Book Precision Asteroseismology: Celebration of the Scientific Opus of Wojtek Dziembowski Date: 19 – 23 August 2013, Location: WrocÃlaw (Poland) Scientific Organizing Committee: Annie Baglin (France) Bill Chaplin (UK) Jørgen Christensen-Dalsgaard (Denmark) Margarida Cunha (Portugal) Jadwiga Daszy´nska-Daszkiewicz (Chair, Poland) Gilles Fontaine (Canada) Joyce Guzik (USA) Marcella Marconi (Italy) Karen Pollard (New Zealand) Hiromoto Shibahashi (Chair, Japan) Juan Carlos Su´arez(Spain) Werner Weiss (Austria) Local Organizing Committee: Urszula Bąk-Stęślicka Barbara Cader-Sroka Jadwiga Daszyńska-Daszkiewicz (Chair) Zbigniew Kołaczkowski Grzegorz Kopacki Andrzej Pigulski (Chair) Marek Stęślicki Przemysław Walczak 1 2 PROGRAM OF THE SYMPOSIUM DAY 1. August 19, Monday Session 1. Introduction Chair: Jadwiga Daszy´nska-Daszkiewicz 8:00 – 9:00 Registration and setting up posters 9:00 – 9:20 Welcome and opening 9:20 – 10:20 An overview of the scientific career of Wojtek Dziem- bowski by Douglas Gough (30 min) & Alexey Pamyatnykh (30 min) 10:20 – 10:50 Coffee break Chair: Jørgen Christensen-Dalsgaard 10:50 – 11:30 Introductory talk: What can we expect from precision asteroseismology (Gerald Handler) Session 2. Observations: from ground to space 11:30 – 12:00 Pulsating variables from the OGLE and Araucaria pro- jects (Grzegorz Pietrzy´nski,invited) 12:00 – 12:30 A review of pulsating stars from the ASAS data (Andrzej Pigulski, invited) 12:30 – 12:45 Asteroseismology with SuperWASP (Barry Smalley) 12:45 – 13:00 A new class of low amplitude
    [Show full text]
  • Conventional and New Directions in Studying Cepheids
    105 Conventional and new directions in studying Cepheids L´aszl´oSzabados Konkoly Observatory of the Hungarian Academy of Sciences P.O. Box 67, H-1525 Budapest, Hungary In the first part of this paper, traditional methods of studying Cepheids are summarized, mentioning Detre’s contribution to this field. Then the new directions of Cepheid related research are reviewed with an emphasis on the problems concerning the period-luminosity relationship. Introduction Cepheids are supergiant stars that perform radial pulsation when they cross the clas- arXiv:astro-ph/0612334v1 13 Dec 2006 sical instability strip in the Hertzsprung-Russell diagram during their post-main sequence evolution. It is the outer layers of Cepheids which oscillate, and the pulsation is main- tained by the opacity changes in the partially ionised zones of neutral hydrogen and singly ionised helium capable for transforming heat into mechanical energy via the κ-mechanism (κ is the conventional sign of the opacity). The mostly monoperiodic Cepheids may seem to be boring targets with respect to the multiperiodic radial and/or non-radial pulsating stars of different types but, in fact, Cepheids are neither perfectly regular, nor homogeneous. Subtle deviations from regular- ity and homogeneity result in important astronomical consequences. No wonder, Cepheids have remained in the forefront of the variable star studies in spite of the fact that a num- ber of astrophysically important new types of variable stars emerged in the last decades. Due to variety and richness of the relevant studies, selected results are only mentioned in this review. Traditional studies and Detre’s contribution The Cepheid pulsation is a free oscillation of the star whose frequency corresponds to the eigenfrequency of the stellar plasma sphere.
    [Show full text]
  • Arxiv:1406.0494V1 [Astro-Ph.SR] 2 Jun 2014
    Mon. Not. R. Astron. Soc. 000, 1–14 (2014) Printed 5 September 2021 (MN LATEX style file v2.2) V473 Lyrae, a unique second-overtone Cepheid with two modulation cycles L. Moln´ar1,2⋆, L. Szabados1 1Konkoly Observatory, Research Centre for Astronomy and Earth Sciences Konkoly Thege Mikl´os ´ut 15-17, H-1121 Budapest, Hungary 2Institute of Mathematics and Physics, Savaria Campus, University of West Hungary K´arolyi G´asp´ar t´er 4, H-9700 Szombathely, Hungary Accepted ABSTRACT V473 Lyrae is the only Galactic Cepheid with confirmed periodic amplitude and phase variations similar to the Blazhko effect observed in RR Lyrae stars. We collected all available photometric data and some radial velocity measurements to investigate the nature of the modulation. The comparison of the photometric and radial velocity amplitudes confirmed that the star pulsates in the second overtone. The extensive data set, spanning more than 40 years, allowed us to detect a secondary modulation cycle with a period of approximately 5300 days or 14.5 years. The secondary variations can be detected in the period of the primary modulation, as well. Phenomenologically, the light variations are analogous to the Blazhko effect. To find a physical link, we calculated linear hydrodynamic models to search for potential mode resonances that could drive the modulation and found two viable half-integer (n:2) and three n:4 resonances between the second overtone and other modes. If any of these resonances will be confirmed by non-linear models, it may confirm the mode resonance model, a common mechanism that can drive modulations both in RR Lyrae and Cepheid stars.
    [Show full text]
  • IAU Division C Working Group on Star Names 2019 Annual Report
    IAU Division C Working Group on Star Names 2019 Annual Report Eric Mamajek (chair, USA) WG Members: Juan Antonio Belmote Avilés (Spain), Sze-leung Cheung (Thailand), Beatriz García (Argentina), Steven Gullberg (USA), Duane Hamacher (Australia), Susanne M. Hoffmann (Germany), Alejandro López (Argentina), Javier Mejuto (Honduras), Thierry Montmerle (France), Jay Pasachoff (USA), Ian Ridpath (UK), Clive Ruggles (UK), B.S. Shylaja (India), Robert van Gent (Netherlands), Hitoshi Yamaoka (Japan) WG Associates: Danielle Adams (USA), Yunli Shi (China), Doris Vickers (Austria) WGSN Website: https://www.iau.org/science/scientific_bodies/working_groups/280/ ​ WGSN Email: [email protected] ​ The Working Group on Star Names (WGSN) consists of an international group of astronomers with expertise in stellar astronomy, astronomical history, and cultural astronomy who research and catalog proper names for stars for use by the international astronomical community, and also to aid the recognition and preservation of intangible astronomical heritage. The Terms of Reference and membership for WG Star Names (WGSN) are provided at the IAU website: https://www.iau.org/science/scientific_bodies/working_groups/280/. ​ ​ ​ WGSN was re-proposed to Division C and was approved in April 2019 as a functional WG whose scope extends beyond the normal 3-year cycle of IAU working groups. The WGSN was specifically called out on p. 22 of IAU Strategic Plan 2020-2030: “The IAU serves as the ​ internationally recognised authority for assigning designations to celestial bodies and their surface features. To do so, the IAU has a number of Working Groups on various topics, most notably on the nomenclature of small bodies in the Solar System and planetary systems under Division F and on Star Names under Division C.” WGSN continues its long term activity of researching cultural astronomy literature for star names, and researching etymologies with the goal of adding this information to the WGSN’s online materials.
    [Show full text]
  • Astronomy Magazine 2011 Index Subject Index
    Astronomy Magazine 2011 Index Subject Index A AAVSO (American Association of Variable Star Observers), 6:18, 44–47, 7:58, 10:11 Abell 35 (Sharpless 2-313) (planetary nebula), 10:70 Abell 85 (supernova remnant), 8:70 Abell 1656 (Coma galaxy cluster), 11:56 Abell 1689 (galaxy cluster), 3:23 Abell 2218 (galaxy cluster), 11:68 Abell 2744 (Pandora's Cluster) (galaxy cluster), 10:20 Abell catalog planetary nebulae, 6:50–53 Acheron Fossae (feature on Mars), 11:36 Adirondack Astronomy Retreat, 5:16 Adobe Photoshop software, 6:64 AKATSUKI orbiter, 4:19 AL (Astronomical League), 7:17, 8:50–51 albedo, 8:12 Alexhelios (moon of 216 Kleopatra), 6:18 Altair (star), 9:15 amateur astronomy change in construction of portable telescopes, 1:70–73 discovery of asteroids, 12:56–60 ten tips for, 1:68–69 American Association of Variable Star Observers (AAVSO), 6:18, 44–47, 7:58, 10:11 American Astronomical Society decadal survey recommendations, 7:16 Lancelot M. Berkeley-New York Community Trust Prize for Meritorious Work in Astronomy, 3:19 Andromeda Galaxy (M31) image of, 11:26 stellar disks, 6:19 Antarctica, astronomical research in, 10:44–48 Antennae galaxies (NGC 4038 and NGC 4039), 11:32, 56 antimatter, 8:24–29 Antu Telescope, 11:37 APM 08279+5255 (quasar), 11:18 arcminutes, 10:51 arcseconds, 10:51 Arp 147 (galaxy pair), 6:19 Arp 188 (Tadpole Galaxy), 11:30 Arp 273 (galaxy pair), 11:65 Arp 299 (NGC 3690) (galaxy pair), 10:55–57 ARTEMIS spacecraft, 11:17 asteroid belt, origin of, 8:55 asteroids See also names of specific asteroids amateur discovery of, 12:62–63
    [Show full text]
  • Meteor Csillagászati Évkönyv
    Ár: 3000 Ft 2016 meteor csillagászati évkönyv csillagászati évkönyv meteor ISSN 0866- 2851 2016 9 770866 285002 meteor 2016 Távcsöves Találkozó Tarján, 2016. július 28–31. www.mcse.hu Magyar Csillagászati Egyesület Fotó: Sztankó Gerda, Tarján, 2012 METEOR CSILLAGÁSZATI ÉVKÖNYV 2016 METEOR CSILLAGÁSZATI ÉVKÖNYV 2016 MCSE – 2015. OKTÓBER–NOVEMBER METEOR CSILLAGÁSZATI ÉVKÖNYV 2016 MCSE – 2015. OKTÓBER–NOVEMBER meteor csillagászati évkönyv 2016 Szerkesztette: Benkõ József Mizser Attila Magyar Csillagászati Egyesület www.mcse.hu Budapest, 2015 METEOR CSILLAGÁSZATI ÉVKÖNYV 2016 MCSE – 2015. OKTÓBER–NOVEMBER Az évkönyv kalendárium részének összeállításában közremûködött: Bagó Balázs Kaposvári Zoltán Kiss Áron Keve Kovács József Molnár Péter Sánta Gábor Sárneczky Krisztián Szabadi Péter Szabó M. Gyula Szabó Sándor Szôllôsi Attila A kalendárium csillagtérképei az Ursa Minor szoftverrel készültek. www.ursaminor.hu Szakmailag ellenôrizte: Szabados László A kiadvány a Magyar Tudományos Akadémia támogatásával készült. További támogatóink mindazok, akik az SZJA 1%-ával támogatják a Magyar Csillagászati Egyesületet. Adószámunk: 19009162-2-43 Felelôs kiadó: Mizser Attila Nyomdai elôkészítés: Kármán Stúdió, www.karman.hu Nyomtatás, kötészet: OOK-Press Kft., www.ookpress.hu Felelôs vezetô: Szathmáry Attila Terjedelem: 23 ív fekete-fehér + 12 oldal színes melléklet 2015. november ISSN 0866-2851 METEOR CSILLAGÁSZATI ÉVKÖNYV 2016 MCSE – 2015. OKTÓBER–NOVEMBER Tartalom Bevezetô ................................................... 7 Kalendárium ..............................................
    [Show full text]
  • RR Lyrae Stars As Seen by the Kepler Space Telescope
    RR Lyrae stars as seen by the Kepler space telescope Emese Plachy 1;2;3,Robert´ Szabo,´ 1;2;3∗ 1Konkoly Observatory, Research Centre for Astronomy and Earth Sciences, Konkoly Thege Miklos´ ut´ 15-17, H-1121 Budapest, Hungary 2MTA CSFK Lendulet¨ Near-Field Cosmology Research Group 3ELTE Eotv¨ os¨ Lorand´ University, Institute of Physics, Budapest, Hungary Correspondence*: Robert´ Szabo´ [email protected] ABSTRACT The unprecedented photometric precision along with the quasi-continuous sampling provided by the Kepler space telescope revealed new and unpredicted phenomena that reformed and invigorated RR Lyrae star research. The discovery of period doubling and the wealth of low- amplitude modes enlightened the complexity of the pulsation behavior and guided us towards nonlinear and nonradial studies. Searching and providing theoretical explanation for these newly found phenomena became a central question, as well as understanding their connection to the oldest enigma of RR Lyrae stars, the Blazhko effect. We attempt to summarize the highest impact RR Lyrae results based on or inspired by the data of the Kepler space telescope both from the nominal and the K2 missions. Besides the three most intriguing topics, the period doubling, the low-amplitude modes, and the Blazhko effect, we also discuss the challenges of Kepler photometry that played a crucial role in the results. The secrets of these amazing variables, uncovered by Kepler, keep the theoretical, ground-based and space-based research inspired in the post-Kepler era, since light variation of RR Lyrae stars is still not completely understood. Keywords: RR Lyrae stars, Kepler spacecraft, Blazkho effect, pulsating variable stars, horizontal-branch stars, pulsation, asteroseismology, nonradial oscillations 1 INTRODUCTION RR Lyrae stars are large-amplitude, horizontal-branch pulsating stars which serve as tracers and distance indicators of old stellar populations in the Milky Way and neighboring galaxies.
    [Show full text]
  • Macrocosmo Nº33
    HA MAIS DE DOIS ANOS DIFUNDINDO A ASTRONOMIA EM LÍNGUA PORTUGUESA K Y . v HE iniacroCOsmo.com SN 1808-0731 Ano III - Edição n° 33 - Agosto de 2006 * t i •■•'• bSÈlÈWW-'^Sif J fé . ’ ' w s » ws» ■ ' v> í- < • , -N V Í ’\ * ' "fc i 1 7 í l ! - 4 'T\ i V ■ }'- ■t i' ' % r ! ■ 7 ji; ■ 'Í t, ■ ,T $ -f . 3 j i A 'A ! : 1 l 4/ í o dia que o ceu explodiu! t \ Constelação de Andrômeda - Parte II Desnudando a princesa acorrentada £ Dicas Digitais: Softwares e afins, ATM, cursos online e publicações eletrônicas revista macroCOSMO .com Ano III - Edição n° 33 - Agosto de I2006 Editorial Além da órbita de Marte está o cinturão de asteróides, uma região povoada com Redação o material que restou da formação do Sistema Solar. Longe de serem chamados como simples pedras espaciais, os asteróides são objetos rochosos e/ou metálicos, [email protected] sem atmosfera, que estão em órbita do Sol, mas são pequenos demais para serem considerados como planetas. Até agora já foram descobertos mais de 70 Diretor Editor Chefe mil asteróides, a maior parte situados no cinturão de asteróides entre as órbitas Hemerson Brandão de Marte e Júpiter. [email protected] Além desse cinturão podemos encontrar pequenos grupos de asteróides isolados chamados de Troianos que compartilham a mesma órbita de Júpiter. Existem Editora Científica também aqueles que possuem órbitas livres, como é o caso de Hidalgo, Apolo e Walkiria Schulz Ícaro. [email protected] Quando um desses asteróides cruza a nossa órbita temos as crateras de impacto. A maior cratera visível de nosso planeta é a Meteor Crater, com cerca de 1 km de Diagramadores diâmetro e 600 metros de profundidade.
    [Show full text]
  • Index to JRASC Volumes 61-90 (PDF)
    THE ROYAL ASTRONOMICAL SOCIETY OF CANADA GENERAL INDEX to the JOURNAL 1967–1996 Volumes 61 to 90 inclusive (including the NATIONAL NEWSLETTER, NATIONAL NEWSLETTER/BULLETIN, and BULLETIN) Compiled by Beverly Miskolczi and David Turner* * Editor of the Journal 1994–2000 Layout and Production by David Lane Published by and Copyright 2002 by The Royal Astronomical Society of Canada 136 Dupont Street Toronto, Ontario, M5R 1V2 Canada www.rasc.ca — [email protected] Table of Contents Preface ....................................................................................2 Volume Number Reference ...................................................3 Subject Index Reference ........................................................4 Subject Index ..........................................................................7 Author Index ..................................................................... 121 Abstracts of Papers Presented at Annual Meetings of the National Committee for Canada of the I.A.U. (1967–1970) and Canadian Astronomical Society (1971–1996) .......................................................................168 Abstracts of Papers Presented at the Annual General Assembly of the Royal Astronomical Society of Canada (1969–1996) ...........................................................207 JRASC Index (1967-1996) Page 1 PREFACE The last cumulative Index to the Journal, published in 1971, was compiled by Ruth J. Northcott and assembled for publication by Helen Sawyer Hogg. It included all articles published in the Journal during the interval 1932–1966, Volumes 26–60. In the intervening years the Journal has undergone a variety of changes. In 1970 the National Newsletter was published along with the Journal, being bound with the regular pages of the Journal. In 1978 the National Newsletter was physically separated but still included with the Journal, and in 1989 it became simply the Newsletter/Bulletin and in 1991 the Bulletin. That continued until the eventual merger of the two publications into the new Journal in 1997.
    [Show full text]