Sky Scholar | White Dwarfs AREN'T Hyper Dense? Quasi-molecules and Spectroscopic Proof! @SkyScholar | Uploaded March 2024 | Updated October 2024, 3 hours ago.
J.B. Holberg, Sirius Brightest Diamond in the Night Sky, Springer, New York, 2007.
J.B. Holberg, Sirius B and the measurement of the gravitational redshift, J. Hist. Astro. 2010, 41, 41-64.
S.R.G. Joyce, M.A. Barstow, J.B. Holberg, H.E. Bond, S.L. Casewell, and M.R. Burleigh, The gravitational redshift of Sirius B, Mon. Not. Roy. Astron. Soc. 2018, 481, 2361-2370.
K. Kidder, J.B. Holberg, and F. Wesemael, A new temperature determination for Sirius B from IUE: Implications for the observed soft X-rays, Lecture Notes on Physics: White Dwarfs, Springer, 2005, 350-353.
J. Halenka, W. Olchawa, J. Madej, and B. Grabowski, Pressure shift and gravitational redshift of Balmer lines in white dwarfs: Rediscussion, Astrophys. J. 2015, 808, 131(10pp).
M. Lemke, Extended VCS Stark broadening tables for hydrogen – Lyman to Bracket series, Astron. Astrophys. Suppl. Ser. 1997, 122, 285-292.
D. Koester, V. Weidemann, E.-M. Zeidler-K.T., and G. Vauclair, The explanation of 1400 and 1600 Å Features in DA white dwarfs, Astron. Astrophys. 1985, 142, L5-L8.
E.P. Neland and G. Wegner, Identification of the 1400 and 1600 Å features observed in the ultraviolet spectra of DA white dwarfs. Astrophys. J. 1985, 289, L31-L33.
J.L. Greenstein, An absorption line in the ultraviolet spectrum of 40 Eridani B, Astrophys. J. 1980, 241, L89-L93.
J.F. Kielkopf and N.F. Allard, Satellites on Lyman Alpha due to H-H and H-H+ collisions, Astrophys. J. 1995, 450, L75-L78.
H. Holweger, D. Koester, and N.F. Allard, Identification of the 1600 Å feature in Lambda Bootis stars, Astron. Astrophys. 1994, 290, L21-L24.
C. Thom and B.K. Gibson, N. Christlieb, A catalog of field horizontal branch stars aligned with high-velocity clouds, Astrophys. J. Suppl. Ser. 2005, 161, 147-153.
M. Jaschek, B. Bascheck, C. Jaschek, and A. Heck, Observation of λλ 1600 and 3040 features in the spectra of field horizontal branch stars, Astron. Astrophys. 1985, 152, 439-440.
R.O. Gray and C.J. Corbally, Stellar Spectral Classification, Princeton Series in Astrophysics, Princeton University Press, Princeton, NJ, 2009, p. 195.
A.S. Eddington, The internal constitution of the stars, Cambridge University Press, 1926, p. 170-174.
The Life Cycle of the Stars | Pierre-Marie Robitaille [OTF2017]
youtube.com/watch?v=FDn_0hwLsKM&list=FLxq7mZOdQ7LrQt3LDK2SG9Q&index=175
The Main Sequence of the Stars: What is the Most Likely Structure?
youtube.com/watch?v=LmNix3Eih20
A Star is Born: Gravitational "Collapse" vs Condensation Reactions!
youtube.com/watch?v=kJf0MX96ERY
EXTREME Density! The White Dwarf Star, Eddington, and Thermodynamics!
youtube.com/watch?v=k4bcb98W9-4
The Early Years in White Dwarf Research - Gravitational Red Shifts?
youtube.com/watch?v=RbolJBWYBS8
Car Salesmen or Astronomers? Temperature & Red Shifts in Sirius B!
youtube.com/watch?v=st6bxU6WmPE
Does the Sun have a Charge?
youtube.com/watch?v=yCPQamGVTeQ
Astrophysics Papers vs Einstein Coefficients: Chemical Coordination & The Second Solar Spectrum! youtube.com/watch?v=ncIV3sUD7BM
Thank you for viewing this video on Sky Scholar! This channel is dedicated to new ideas about the nature of the sun, the stars, thermodynamics, and the microwave background. We will discuss all things astronomy, physics, chemistry, and imaging related! We hope that the combination of facts and special effects will aid in learning even the toughest concepts in astronomy. If you enjoyed this video, please subscribe.
Pierre-Marie Robitaille, Ph.D., was a professor of Radiology at The Ohio State University from 1989-2019, and also held an appointment in the Chemical Physics Program. In 1998, he led the design and assembly of the world’s first Ultra High Field MRI System. Readings from this equipment brought into question fundamental aspects of modern thermal physics, such as Kirchhoff’s Law of thermal emission.
Outro Music:
Foria: Break Away
soundcloud.com/foria
youtube.com/watch?v=UkUweq5FAcE
J.B. Holberg, Sirius Brightest Diamond in the Night Sky, Springer, New York, 2007.
J.B. Holberg, Sirius B and the measurement of the gravitational redshift, J. Hist. Astro. 2010, 41, 41-64.
S.R.G. Joyce, M.A. Barstow, J.B. Holberg, H.E. Bond, S.L. Casewell, and M.R. Burleigh, The gravitational redshift of Sirius B, Mon. Not. Roy. Astron. Soc. 2018, 481, 2361-2370.
K. Kidder, J.B. Holberg, and F. Wesemael, A new temperature determination for Sirius B from IUE: Implications for the observed soft X-rays, Lecture Notes on Physics: White Dwarfs, Springer, 2005, 350-353.
J. Halenka, W. Olchawa, J. Madej, and B. Grabowski, Pressure shift and gravitational redshift of Balmer lines in white dwarfs: Rediscussion, Astrophys. J. 2015, 808, 131(10pp).
M. Lemke, Extended VCS Stark broadening tables for hydrogen – Lyman to Bracket series, Astron. Astrophys. Suppl. Ser. 1997, 122, 285-292.
D. Koester, V. Weidemann, E.-M. Zeidler-K.T., and G. Vauclair, The explanation of 1400 and 1600 Å Features in DA white dwarfs, Astron. Astrophys. 1985, 142, L5-L8.
E.P. Neland and G. Wegner, Identification of the 1400 and 1600 Å features observed in the ultraviolet spectra of DA white dwarfs. Astrophys. J. 1985, 289, L31-L33.
J.L. Greenstein, An absorption line in the ultraviolet spectrum of 40 Eridani B, Astrophys. J. 1980, 241, L89-L93.
J.F. Kielkopf and N.F. Allard, Satellites on Lyman Alpha due to H-H and H-H+ collisions, Astrophys. J. 1995, 450, L75-L78.
H. Holweger, D. Koester, and N.F. Allard, Identification of the 1600 Å feature in Lambda Bootis stars, Astron. Astrophys. 1994, 290, L21-L24.
C. Thom and B.K. Gibson, N. Christlieb, A catalog of field horizontal branch stars aligned with high-velocity clouds, Astrophys. J. Suppl. Ser. 2005, 161, 147-153.
M. Jaschek, B. Bascheck, C. Jaschek, and A. Heck, Observation of λλ 1600 and 3040 features in the spectra of field horizontal branch stars, Astron. Astrophys. 1985, 152, 439-440.
R.O. Gray and C.J. Corbally, Stellar Spectral Classification, Princeton Series in Astrophysics, Princeton University Press, Princeton, NJ, 2009, p. 195.
A.S. Eddington, The internal constitution of the stars, Cambridge University Press, 1926, p. 170-174.
The Life Cycle of the Stars | Pierre-Marie Robitaille [OTF2017]
youtube.com/watch?v=FDn_0hwLsKM&list=FLxq7mZOdQ7LrQt3LDK2SG9Q&index=175
The Main Sequence of the Stars: What is the Most Likely Structure?
youtube.com/watch?v=LmNix3Eih20
A Star is Born: Gravitational "Collapse" vs Condensation Reactions!
youtube.com/watch?v=kJf0MX96ERY
EXTREME Density! The White Dwarf Star, Eddington, and Thermodynamics!
youtube.com/watch?v=k4bcb98W9-4
The Early Years in White Dwarf Research - Gravitational Red Shifts?
youtube.com/watch?v=RbolJBWYBS8
Car Salesmen or Astronomers? Temperature & Red Shifts in Sirius B!
youtube.com/watch?v=st6bxU6WmPE
Does the Sun have a Charge?
youtube.com/watch?v=yCPQamGVTeQ
Astrophysics Papers vs Einstein Coefficients: Chemical Coordination & The Second Solar Spectrum! youtube.com/watch?v=ncIV3sUD7BM
Thank you for viewing this video on Sky Scholar! This channel is dedicated to new ideas about the nature of the sun, the stars, thermodynamics, and the microwave background. We will discuss all things astronomy, physics, chemistry, and imaging related! We hope that the combination of facts and special effects will aid in learning even the toughest concepts in astronomy. If you enjoyed this video, please subscribe.
Pierre-Marie Robitaille, Ph.D., was a professor of Radiology at The Ohio State University from 1989-2019, and also held an appointment in the Chemical Physics Program. In 1998, he led the design and assembly of the world’s first Ultra High Field MRI System. Readings from this equipment brought into question fundamental aspects of modern thermal physics, such as Kirchhoff’s Law of thermal emission.
Outro Music:
Foria: Break Away
soundcloud.com/foria
youtube.com/watch?v=UkUweq5FAcE