Étoiles massives de la séquence principale

Ces étoiles appartiennent aux classes spectrales O, B, A et F et représentent les géants de l'univers, bien plus grandes et chaudes que notre Soleil. Si vous imaginez le Soleil comme une voiture familiale, ces étoiles sont comme de puissants moteurs de fusée. Elles ont des masses plusieurs fois supérieures à celle du Soleil et émettent une lumière bleue ou blanche en raison de températures extrêmes. Dans leur noyau, la fusion se produit de manière agressive, ce qui signifie que bien qu'elles aient plus de carburant, elles le consomment très rapidement — en millions d'années plutôt qu'en milliards. Elles forgent des éléments lourds qui deviennent les bâtisseurs de nouvelles planètes.

Percentage of Étoiles massives de la séquence principale within 97.4 années lumière: 2.99 % (275 from 9194 stars)
Average masse of Étoiles massives de la séquence principale: 200-3000% solar mass
Average rayon of Étoiles massives de la séquence principale: 200-5000% solar radius
Average température of Étoiles massives de la séquence principale: 7000-40000 K

Étoiles massives de la séquence principale

Étoiles massives de la séquence principale

		Masse	distance
Sirius Dog Star, Aschere, Canicula, Al Shira, Sothis, Alhabor, Mrgavyadha, Lubdhaka, Tenrōsei, α Canis Majoris (α CMa), 9 Canis Majoris (9 CMa), HD 48915, HR 2491, BD−16°1591, GJ 244, LHS 219, ADS 5423, LTT 2638, HIP 32349, alf CMa	A0mA1 Va	2.1 M☉	8.7 ly
Altair Alpha Aquilae, α Aquilae, Gliese 768, 53 Aquilae, 53 Aql, BD+08°4236, FK5 745, GCTP 4665.00, Gliese 768, HD 187642, HIP 97649, HR 7557, LFT 1499, LHS 3490, LTT 15795, NLTT 48314, SAO 125122, WDS 19508+0852A, alf Aql	A7 V	1.8 M☉	16.7 ly
Eta Cassiopeiae Achird, Gliese 34, Wolf 24, Achird, η Cas 24 Cassiopeiae, ADS 671, BD+57°150, GCTP 155, HD 4614, HIP 3821, HR 219, LHS 123/122, LFT 74, LTT 10287, SAO 21732, Struve 60, GC 962	F9V	0.97 M☉	19.3 ly
Vega Alpha Lyrae, Lucida Lyrae, Gliese 721, GJ 721, Wega, α Lyrae, 3 Lyrae, BD+38°3238, GCTP 4293.00, HD 172167, HIC 91262, HIP 91262, HR 7001, LTT 15486, SAO 67174	A0Va	2.1 M☉	25 ly
Fomalhaut α Piscis Austrini, α PsA, Alpha PsA, 24 Piscis Austrini, CPD −30° 6685, FK5 867, Gl 881, HD 216956, HIP 113368, HR 8728, SAO 191524, alf PsA	A3V C	1.9 M☉	25.1 ly

Étoiles massives de la séquence principale

Massive main-sequence star HD 188101 has unusual amounts of silicon, titanium, and strontium

6. 3. 2026

Étoiles | Étoiles massives de la séquence principale

Image: Massive main-sequence star HD 188101 has unusual amounts of silicon, titanium, and strontium

Researchers have closely examined HD 188101, a little-studied star with a weak magnetic field, using both spectroscopic and photometric observations. This star has properties typical of main-sequence B9 stars, including its effective temperature and surface gravity. The study focused on measuring the amounts of several elements in the star's atmosphere and how these compare to the Sun. The team found that HD 188101 has higher than solar amounts of silicon, titanium, and strontium, while its h...

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Vertical structure of the Beta Pictoris debris disk revealed across multiple wavelengths

5. 3. 2026

Étoiles | Formation des planètes | Exoplanètes | Étoiles massives de la séquence principale

Image: Vertical structure of the Beta Pictoris debris disk revealed across multiple wavelengths

New research reveals that the β Pictoris debris disk is thicker in the mid-infrared than in the millimeter range, with warping and possible clumps linked to giant planets. These findings shed light on the disk's complex structure....

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High-resolution X-ray study of Eta Carinae reveals stellar wind dynamics

1. 3. 2026

Étoiles | Étoiles massives de la séquence principale

Image: High-resolution X-ray study of Eta Carinae reveals stellar wind dynamics

Eta Carinae, a supermassive binary, shows extreme stellar winds and X-ray emissions. XRISM captured unprecedented spectra revealing wind dynamics. #space #science #spacenews...

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Stellar paternity tests: Tracing runaway stars back to their galactic nurseries

22. 2. 2026

Étoiles | Gaia | Étoiles massives de la séquence principale

Image: Stellar paternity tests: Tracing runaway stars back to their galactic nurseries

...

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Rapidly rotating magnetic star HR 5907 emits unusual low-frequency radio signals

23. 1. 2025

Étoiles | Étoiles massives de la séquence principale

Image: Rapidly rotating magnetic star HR 5907 emits unusual low-frequency radio signals

...

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Research in Étoiles massives de la séquence principale

Parcourez les dernières études scientifiques sur les étoiles et les exoplanètes de notre galaxie. Découvrez les dernières recherches en astrophysique et en astronomie stellaire.

Les recherches en cours

HD 188101 1394 ly		HD 188101: A Spotted B Star with Abundance Anomalies 6. 3. 2026
Beta Pictoris 64 ly		The multi-wavelength vertical structure of the archetypal β Pictoris debris disk 5. 3. 2026
Eta Carinae 7500 ly		High Spectral Resolution X-ray Observations of the Evolved Supermassive Stellar Binary System Carinae - Iron K Band Profile Revealed with XRISM 1. 3. 2026
AE Aurigae 1267 ly		Stellar Paternity Tests: Matching High-Latitude B Stars to the Open Clusters of their Birth 22. 2. 2026
BD+37 3172 1480 ly	+1	Planetary-mass companions to a retired B star BD+37 3172 and a retired F star BD+42 2315 16. 10. 2025

Publications plus anciennes