R. Ruby scite author profile

R. Ruby

4Publications

40Citation Statements Received

38Citation Statements Given

How they've been cited

119

How they cite others

Affiliations

Lahore College for Women University, University of California, Santa Cruz, University of California, Berkeley

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Jeans anisotropic instability

Цинцадзе

Rozina

Ruby

et al. 2018

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The effect of quantized anisotropic magnetic pressure, arising due to a strong magnetic field, is studied on the growth rate of Jeans instability of quantum electron–ion and classical dusty plasma. Two dispersion relations are formulated for the propagation of the gravitational waves that are perpendicular and parallel to the magnetic field, respectively. It is shown that for perpendicular propagation, the quantized magnetic pressure is stabilizing the Jeans instability, whereas for the parallel propagation the plasma become more unstable with the increase in the magnetic field or we can say that Jeans instabilities becomes anisotropic in this case. The corresponding Jeans wave number is calculated in the absence of tunneling effect which shows that the magnetic field anisotropy of the Galaxy is connected with Jeans effect. Further, it is shown that the Madelung term leads to the inhomogeneity of the plasma medium. Numerical results are presented to show the effect of the anisotropic magnetic pressure on the Jeans instability.

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Paramagnetic Resonance below 1°K: Spin-Lattice Relaxation ofCe3+andNd3+
Ruby
¹
,
Benoît
²
,
Jeffries
³

1962
Phys. Rev.
82
2
11
0
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Jeans surface instability of an electron-ion plasma

et al. 2019

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The dispersive properties of Jeans surface instability at a charged plane interface of weakly coupled, classical self-gravitating, magnetized electron-ion plasma and vacuum, are investigated. The general dispersion relation is formulated by employing one fluid magnetohydrodynamic (MHD) model and Poisson’s equations for both electrostatic and gravitational potentials. It is shown that both the surface charge and mass density fluctuations are coupled together effectively, to enhance the growth rate of surface Jeans instability, whereas an increase in magnetic field and surface tension tends to stabilize Jeans surface instability. The modified Jeans criterion of gravitational instability is obtained by formulating a new definition of Jeans wavelength. These results may be useful to examine the gravitational collapse of self-gravitating electron-ion plasma, leading to star formation in astro-cosmic environments.

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Transient Epr and Absorbance Changes in Photosynthetic Bacteria

Ruby

Kuntz

Calvin

1964

Proc. Natl. Acad. Sci. U.S.A.

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R. Ruby

Jeans anisotropic instability

Paramagnetic Resonance below 1°K: Spin-Lattice Relaxation ofCe3+andNd3+
Ruby
¹
,
Benoît
²
,
Jeffries
³

1962
Phys. Rev.
82
2
11
0
View full text Add to dashboard Cite

Jeans surface instability of an electron-ion plasma

Transient Epr and Absorbance Changes in Photosynthetic Bacteria

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R. Ruby

Jeans anisotropic instability

Paramagnetic Resonance below 1°K: Spin-Lattice Relaxation ofCe3+andNd3+Ruby1, Benoît2, Jeffries3 1962Phys. Rev.822110View full textAdd to dashboardCite

Jeans surface instability of an electron-ion plasma

Transient Epr and Absorbance Changes in Photosynthetic Bacteria

Contact Info

Product

Resources

About

Paramagnetic Resonance below 1°K: Spin-Lattice Relaxation ofCe3+andNd3+
Ruby
¹
,
Benoît
²
,
Jeffries
³

1962
Phys. Rev.
82
2
11
0
View full text Add to dashboard Cite