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Electron paramagnetic resonance studies of γ-irradiated corn

Adem, E. ; Munoz, E. ; Gleason V., R. ; [et al.]

Amsterdam : Elsevier

Applied Radiation and Isotopes 44 (1993), S. 419-422

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ISSN: 0969-8043

Keywords: Corn ; Electron Paramagnetic Resonance ; Free radicals ; α-D-glucose ; γ-irradiation

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Energy, Environment Protection, Nuclear Power Engineering

Type of Medium: Electronic Resource

URL: http://linkinghub.elsevier.com/retrieve/pii/0969-8043(93)90259-D

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Using Black Hole Mergers to Explore Structure Formation (2009)

Miller, M. Coleman ; Alicea-Munoz, E.

In: Other Sources

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Publication Date: 2019-07-19

Description: Observations of gravitational waves from massive black hole mergers will open a new window into the era of structure formation in the early universe. Past efforts have concentrated on calculating merger rates using different physical assumptions, resulting in merger rate estimates that span a wide range (0.1 - 10(exp 4) mergers/year). We develop a semi-analytical, phenomenological model of massive black hole mergers that includes plausible combinations of several physical parameters, which we then turn around to determine how well observations with the Laser Interferometer Space Antenna (LISA) will be able to enhance our understanding of the universe during the critical z approximately equal to 5-30 epoch. Our approach involves generating synthetic LISA observable data (total BH masses, BH mass ratios, redshifts, merger rates), which are then analyzed using a Markov Chain Monte Carlo method, thus finding constraints for the physical parameters of the mergers. We find that our method works well at estimating merger parameters and that the number of merger events is a key discriminant among models, therefore making our method robust against observational uncertainties. Our approach can also be extended to more physically-driven models and more general problems in cosmology. This work is supported in part by the Cooperative Education Program at NASA/GSFC.

Keywords: Astrophysics

Type: American Astronomical Society meeting (AAS); Jan 03, 2009 - Jan 08, 2009; Long Beach, CA; United States

Format: text

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Black Hole Mergers as Probes of Structure Formation (2008)

Alicea-Munoz, E. ; Miller, M. Coleman

In: CASI

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Publication Date: 2019-07-12

Description: Intense structure formation and reionization occur at high redshift, yet there is currently little observational information about this very important epoch. Observations of gravitational waves from massive black hole (MBH) mergers can provide us with important clues about the formation of structures in the early universe. Past efforts have been limited to calculating merger rates using different models in which many assumptions are made about the specific values of physical parameters of the mergers, resulting in merger rate estimates that span a very wide range (0.1 - 104 mergers/year). Here we develop a semi-analytical, phenomenological model of MBH mergers that includes plausible combinations of several physical parameters, which we then turn around to determine how well observations with the Laser Interferometer Space Antenna (LISA) will be able to enhance our understanding of the universe during the critical z 5 - 30 structure formation era. We do this by generating synthetic LISA observable data (total BH mass, BH mass ratio, redshift, merger rates), which are then analyzed using a Markov Chain Monte Carlo method. This allows us to constrain the physical parameters of the mergers. We find that our methodology works well at estimating merger parameters, consistently giving results within 1- of the input parameter values. We also discover that the number of merger events is a key discriminant among models. This helps our method be robust against observational uncertainties. Our approach, which at this stage constitutes a proof of principle, can be readily extended to physical models and to more general problems in cosmology and gravitational wave astrophysics.

Keywords: Astrophysics

Format: application/pdf

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