A Relativistic Neutron Fireball from a Supernova Explosion as a Possible Source of Chiral Influence

We elaborate on a previously proposed idea that polarized electrons produced from neutrons, released in a supernova (SN) explosion, can cause chiral dissymmetry of molecules in interstellar gas-dust clouds. A specific physical mechanism of a relativistic neutron fireball with Lorentz factor of the order of 100 is assumed for propelling a great number of free neutrons outside the dense SN shell. A relativistic chiral electron–proton plasma, produced from neutron decays, is slowed down owing to collective effects in the interstellar plasma. As collective effects do not involve the particle spin, the electrons can carry their helicities to the cloud. The estimates show high chiral efficiency of such electrons. In addition to this mechanism, production of circularly polarized ultraviolet photons through polarized-electron bremsstrahlung at an early stage of the fireball evolution is considered. It is shown that these photons can escape from the fireball plasma. However, for an average density of neutrals in the interstellar medium of the order of 0.2 cm−3 and at distances of the order of 10 pc from the SN, these photons will be absorbed with a factor of about 10−7 due to the photoeffect. In this case, their chiral efficiency will be about five orders of magnitude less than that for polarized electrons.

[1]  Electroweak enantioselection and the origin of life. , 1995, Origins of life and evolution of the biosphere : the journal of the International Society for the Study of the Origin of Life.

[2]  G. Tranter,et al.  The parity-violating energy difference between enantiomeric molecules , 1983 .

[3]  D. Cline On the determination of the physical origin of homochirality in life , 1996 .

[4]  L. Keszthelyi Asymmetries of nature and the origin of biomolecular handedness. , 1987, Bio Systems.

[5]  W. Kluźniak,et al.  The Central Engine of Gamma-Ray Bursters , 1997, astro-ph/9712320.

[6]  W. Bonner,et al.  The origin and amplification of biomolecular chirality , 2005, Origins of life and evolution of the biosphere.

[7]  P. Schwerdtfeger,et al.  Recent experimental and theoretical developments towards the observation of parity violation (PV) effects in molecules by spectroscopy. , 2005, Organic & biomolecular chemistry.

[8]  A. J. Macdermott Electro weak enantioselection and the origin of life , 1995, Origins of Life and Evolution of the Biosphere.

[9]  S. Mason Universal dissymmetry and the origin of biomolecular chirality. , 1987, Bio Systems.

[10]  Evgenii Mikhailovich Lifshitz,et al.  Relativistic quantum theory , 1971 .

[11]  A. Beloborodov,et al.  Neutron-fed Afterglows of Gamma-Ray Bursts , 2002, astro-ph/0209228.

[12]  I. Gonzalo,et al.  Effect of Cosmological Neutrinos on Discrimination Between the Two Enantiomers of a Chiral Molecule , 2006, Origins of Life and Evolution of Biospheres.

[13]  Nuclear Composition of Gamma-Ray Burst Fireballs , 2002, astro-ph/0210522.

[14]  J. van Paradijs,et al.  Interstellar dust, chirality, comets and the origins of life: Life from dead stars? , 1995 .

[15]  Pedro Bargueño,et al.  The Role of Supernova Neutrinos on Molecular Homochirality , 2006, Origins of Life and Evolution of Biospheres.