dor_id: 1500345

506.#.#.a: Público

650.#.4.x: Físico Matemáticas y Ciencias de la Tierra

336.#.#.b: other

336.#.#.3: Registro de colección de proyectos

336.#.#.a: Registro de colección universitaria

351.#.#.b: Proyectos Universitarios PAPIIT (PAPIIT)

351.#.#.a: Colecciones Universitarias Digitales

harvesting_group: ColeccionesUniversitarias

270.1.#.p: Dirección General de Repositorios Universitarios. contacto@dgru.unam.mx

590.#.#.c: Otro

270.#.#.d: MX

270.1.#.d: México

590.#.#.b: Concentrador

883.#.#.u: https://datosabiertos.unam.mx/

883.#.#.a: Portal de Datos Abiertos UNAM, Colecciones Universitarias

590.#.#.a: Administración central

883.#.#.1: http://www.ccud.unam.mx/

883.#.#.q: Dirección General de Repositorios Universitarios

850.#.#.a: Universidad Nacional Autónoma de México

856.4.0.u: http://datosabiertos.unam.mx/DGAPA:PAPIIT:IN103912

100.1.#.a:

524.#.#.a: Dirección de Desarrollo Académico, Dirección General de Asuntos del Personal Académico (DGAPA). "Revelando nuevos detalles de la evolución estelar mediante el estudio de los objetos de tipo FSCMa", Proyectos Universitarios PAPIIT (PAPIIT). En "Portal de datos abiertos UNAM" (en línea), México, Universidad Nacional Autónoma de México.

245.1.0.a: Revelando nuevos detalles de la evolución estelar mediante el estudio de los objetos de tipo FSCMa

502.#.#.c: Universidad Nacional Autónoma de México

561.1.#.a: Observatorio Astronómico Nacional San Pedro Mártir, UNAM

264.#.0.c: 2012

264.#.1.c: 2012

307.#.#.a: 2019-05-23 18:40:21.491

653.#.#.a: Astrofísica estelar; Astronomía

506.1.#.a: La titularidad de los derechos patrimoniales de este recurso digital pertenece a la Universidad Nacional Autónoma de México. Su uso se rige por una licencia Creative Commons BY 4.0 Internacional, https://creativecommons.org/licenses/by/4.0/legalcode.es, fecha de asignación de la licencia 2012, para un uso diferente consultar al responsable jurídico del repositorio por medio de contacto@dgru.unam.mx

041.#.7.h: spa

500.#.#.a: One of the most important achievements of 20th century astrophysics is the theory of stellar evolution that describes changes of stellar structure and observable parameters (mass, luminosity, surface temperature Te_x000B_ff , and chemical composition) throughout their lives. The changes are slow during some evolutionary stages (e.g., the main sequence stage). However, they can be fast and dramatic (e.g., at the asymptotic giant branch (AGB) stage), forcing stars to lose mass_x000D_ and form circumstellar (CS) envelopes. Such envelopes may include only gaseous material or they may provide favorable conditions for dust formation. Similarly, mass exchange between the stellar companions may result in a significant amount of CS matter in binary systems. Studying the CS matter and processes that lead to its formation provide an understanding of important issues, such as evolution of galaxies and planet formation, refine our knowledge of adjacent quiet_x000D_ evolutionary stages and explain the causes for evolutionary transitions._x000D_ In the 1960’s, the advent of multiwavelength detectors enabled studying the CS media and resulted in discovering new evolutionary phenomena. For example, the 1983 InfraRed Astronomical Satellite (IRAS) all-sky survey recognized Vega-type stars, which retain protostellar dust during most of their main-sequence lives, and Proto-Planetary Nebulae, post-AGB stars that drive earlier created CS dust into the interstellar medium. These discoveries gave a tremendous impetus to studies of the stellar evolution as well as to the theory of CS dust formation._x000D_ Nevertheless, not all CS phenomena are currently understood. This is particularly true for stars with initial masses ∼2–20 M⊙ that appear on the main-sequence as B- and early A-type stars (Teff_x000B_ ∼ 30000–9000 K). A noticeable fraction of them shows the Be and B[e] phenomena. The former is defined as the appearance of hydrogen emission lines in the spectra of nonsupergiant stars, while the latter refers to the simultaneous presence of forbidden lines and strong IR excess radiation due to CS dust and is not luminosity restricted. Both challenge the theory of stellar evolution, but also present unique opportunities for developing new techniques_x000D_ of astrophysical data analysis. The Be phenomenon receives much attention, while a more complex B[e] phenomenon has not yet been studied in detail. Our project seeks to study a newly defined group of ≥50 Galactic objects with the B[e] phenomenon and luminosities log L/L⊙ ∼2.5–4.5 (FSCMa objects). Their IR excesses indicate recent dust formation and emission-line spectra are extremely strong. These features in objects of the temperature and luminosity range in question remain unexplained. One third of the FSCMa objects are recognized binary systems, whose physical parameters are still poorly-known. Incompleteness of observational information makes it difficult to reveal their nature and evolutionary status and excludes them from theoretical consideration. Therefore, the project will address important questions concerning stellar evolution, mass loss in stellar systems, and CS dust formation. _x000D_

046.#.#.j: 2019-11-14 12:26:40.706

264.#.1.b: Dirección General de Asuntos del Personal Académico

handle: 19cf4e4cc19b1bb6

harvesting_date: 2019-11-14 12:26:40.706

856.#.0.q: text/html

last_modified: 2019-11-22 00:00:00

license_url: https://creativecommons.org/licenses/by/4.0/legalcode.es

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Registro de colección universitaria

Revelando nuevos detalles de la evolución estelar mediante el estudio de los objetos de tipo FSCMa

Observatorio Astronómico Nacional San Pedro Mártir, UNAM, Portal de Datos Abiertos UNAM, Colecciones Universitarias

Licencia de uso

Procedencia del contenido

Entidad o dependencia
Observatorio Astronómico Nacional San Pedro Mártir, UNAM
Entidad o dependencia
Dirección General de Asuntos del Personal Académico
Acervo
Colecciones Universitarias Digitales
Repositorio
Portal de Datos Abiertos UNAM, Colecciones Universitarias
Contacto
Dirección General de Repositorios Universitarios. contacto@dgru.unam.mx

Cita

Dirección de Desarrollo Académico, Dirección General de Asuntos del Personal Académico (DGAPA). "Revelando nuevos detalles de la evolución estelar mediante el estudio de los objetos de tipo FSCMa", Proyectos Universitarios PAPIIT (PAPIIT). En "Portal de datos abiertos UNAM" (en línea), México, Universidad Nacional Autónoma de México.

Descripción del recurso

Título
Revelando nuevos detalles de la evolución estelar mediante el estudio de los objetos de tipo FSCMa
Colección
Proyectos Universitarios PAPIIT (PAPIIT)
Fecha
2012
Descripción
One of the most important achievements of 20th century astrophysics is the theory of stellar evolution that describes changes of stellar structure and observable parameters (mass, luminosity, surface temperature Te_x000B_ff , and chemical composition) throughout their lives. The changes are slow during some evolutionary stages (e.g., the main sequence stage). However, they can be fast and dramatic (e.g., at the asymptotic giant branch (AGB) stage), forcing stars to lose mass_x000D_ and form circumstellar (CS) envelopes. Such envelopes may include only gaseous material or they may provide favorable conditions for dust formation. Similarly, mass exchange between the stellar companions may result in a significant amount of CS matter in binary systems. Studying the CS matter and processes that lead to its formation provide an understanding of important issues, such as evolution of galaxies and planet formation, refine our knowledge of adjacent quiet_x000D_ evolutionary stages and explain the causes for evolutionary transitions._x000D_ In the 1960’s, the advent of multiwavelength detectors enabled studying the CS media and resulted in discovering new evolutionary phenomena. For example, the 1983 InfraRed Astronomical Satellite (IRAS) all-sky survey recognized Vega-type stars, which retain protostellar dust during most of their main-sequence lives, and Proto-Planetary Nebulae, post-AGB stars that drive earlier created CS dust into the interstellar medium. These discoveries gave a tremendous impetus to studies of the stellar evolution as well as to the theory of CS dust formation._x000D_ Nevertheless, not all CS phenomena are currently understood. This is particularly true for stars with initial masses ∼2–20 M⊙ that appear on the main-sequence as B- and early A-type stars (Teff_x000B_ ∼ 30000–9000 K). A noticeable fraction of them shows the Be and B[e] phenomena. The former is defined as the appearance of hydrogen emission lines in the spectra of nonsupergiant stars, while the latter refers to the simultaneous presence of forbidden lines and strong IR excess radiation due to CS dust and is not luminosity restricted. Both challenge the theory of stellar evolution, but also present unique opportunities for developing new techniques_x000D_ of astrophysical data analysis. The Be phenomenon receives much attention, while a more complex B[e] phenomenon has not yet been studied in detail. Our project seeks to study a newly defined group of ≥50 Galactic objects with the B[e] phenomenon and luminosities log L/L⊙ ∼2.5–4.5 (FSCMa objects). Their IR excesses indicate recent dust formation and emission-line spectra are extremely strong. These features in objects of the temperature and luminosity range in question remain unexplained. One third of the FSCMa objects are recognized binary systems, whose physical parameters are still poorly-known. Incompleteness of observational information makes it difficult to reveal their nature and evolutionary status and excludes them from theoretical consideration. Therefore, the project will address important questions concerning stellar evolution, mass loss in stellar systems, and CS dust formation. _x000D_
Tema
Astrofísica estelar; Astronomía
Identificador global
http://datosabiertos.unam.mx/DGAPA:PAPIIT:IN103912

Enlaces