Add to ORKGJournal ArticleThe first phase of stellar evolution in the history of the universe may be Dark Stars, powered by dark matter heating rather than by fusion. Weakly interacting massive particles, which are their own antiparticles, can annihilate and provide an important heat source for the first stars in the universe. This and the following contribution present the story of Dark Stars. In this first part, we describe the conditions under which dark stars form in the early universe: 1) high dark matter densities, 2) the annihilation products get stuck inside the star, and 3) dark matter heating wins over all other cooling or heating mechanisms
We include an energy term based on dark matter (DM) self-annihilation during the cooling and subsequ...
Although significant progress has been made in understanding the nature and history of our universe ...
During the last century, with the development of modern physics in such diverse fields as thermodyna...
Journal ArticleThe _x000C_first phase of stellar evolution in the history of the universe may be Dar...
Journal ArticleThe first phase of stellar evolution in the history of the universe may be Dark Stars...
ManuscriptA new line of research on Dark Stars is reviewed, which suggests that the first stars to e...
We have proposed that the first phase of stellar evolution in the history of the Universe may be dar...
Journal ArticleA mechanism is identified whereby dark matter (DM) in protostellar halos dramatically...
ManuscriptDark matter (DM) in protostellar halos can dramatically alter the current theoretical fram...
The first phase of stellar evolution in the history of the Universe may be Dark Stars (DS), powered ...
We use the stellar evolution code MESA to study dark stars (DSs). DSs, which are powered by dark mat...
Assuming that Dark Matter is dominated by WIMPs, it accretes by gravitational attraction and scatter...
The most compelling and popular models for dark matter predict that it should congregate and annihil...
There is evidence that dark matter constitutes a majority of the Universe's matter content. Yet, we ...
Dark matter annihilation might power the first luminous stars in the Universe. This type of stars, k...
We include an energy term based on dark matter (DM) self-annihilation during the cooling and subsequ...
Although significant progress has been made in understanding the nature and history of our universe ...
During the last century, with the development of modern physics in such diverse fields as thermodyna...
Journal ArticleThe _x000C_first phase of stellar evolution in the history of the universe may be Dar...
Journal ArticleThe first phase of stellar evolution in the history of the universe may be Dark Stars...
ManuscriptA new line of research on Dark Stars is reviewed, which suggests that the first stars to e...
We have proposed that the first phase of stellar evolution in the history of the Universe may be dar...
Journal ArticleA mechanism is identified whereby dark matter (DM) in protostellar halos dramatically...
ManuscriptDark matter (DM) in protostellar halos can dramatically alter the current theoretical fram...
The first phase of stellar evolution in the history of the Universe may be Dark Stars (DS), powered ...
We use the stellar evolution code MESA to study dark stars (DSs). DSs, which are powered by dark mat...
Assuming that Dark Matter is dominated by WIMPs, it accretes by gravitational attraction and scatter...
The most compelling and popular models for dark matter predict that it should congregate and annihil...
There is evidence that dark matter constitutes a majority of the Universe's matter content. Yet, we ...
Dark matter annihilation might power the first luminous stars in the Universe. This type of stars, k...
We include an energy term based on dark matter (DM) self-annihilation during the cooling and subsequ...
Although significant progress has been made in understanding the nature and history of our universe ...
During the last century, with the development of modern physics in such diverse fields as thermodyna...