Tony Piro

UC Berkeley
Astronomy Department
601 Campbell Hall
Berkeley, CA 94720

tpiro@astro.berkeley.edu

Research Interests

I am a TAC fellow in the astronomy department at University of California, Berkeley. I completed my Ph.D. in 2006 under the guidance of my advisor Lars Bildsten (permanent member of the KITP). My research is in the field of theoretical astrophysics, focusing on the properties of accreting compact bodies such as neutron stars and white dwarfs. Some of the topics I have investigated are low mass X-ray binary evolution and accretion stability, nonradial mode spectrum and stability on rotating neutron stars, and interactions between accretion disks and white dwarf surfaces. More recently I have been interested in Type Ia supernovae and mergers of compact objects, and the interesting nucleosynthesis that powers these events. These astrophysical "laboratories" allow for the exciting prospect of studying a wide variety of fields in physics (including gravity, fluid dynamics, magnetic fields, and condensed matter) in extreme physical environments--many of which cannot be replicated in experiments on Earth.

My list of publications can be found at the astro-ph website or the Astrophysics Data System (ADS) website

My curriculum vitae can be downloaded here

On the right is an illustration of the collapse of a massive star in which the large envelope forms a rotationally supported disk and may even lead to a relativistic jet. This "collapsar" picture may explain at least one class of gamma-ray bursts, cosmic explosions that are a million trillion times as bright as the sun! Gamma-ray bursts last for anywhere from a few milliseconds to several minutes, and for that time they are the brightest source of gamma-rays in the entire observable Universe. The energy from one event is enough to supply the entire world's electrical energy needs for approximately a hundred million billion billion years.

For our research we have considered whether the disks associated with these events can fragment (as shown at the top of the disk), and have estimated the unique gravitational wave signature this process may create.

Click picture for a larger version.

Previous/Current Obsessions

The links below describe some of my research. Simple summaries are provided along with website links that give an introduction to these exciting topics.

• Fragmentation of Collapsar Disks and the Production of Gravitational Waves
• White Dwarf Heating and Subsequent Cooling in Dwarf Nova Outbursts
• The Spreading Layer and Dwarf Novae Oscillations
• Neutron Star Oscillations
• LMXBs in Elliptical Galaxies

Selected Talks

• Stellar Death and Supernovae, KITP, UCSB, August 18, 2009
• Accretion and Explosion: the Astrophysics of Degenerate Stars, KITP, UCSB, April 12, 2007
• Neutron Stars at the Crossroads of Fundamental Physics, UBC, Vancouver, BC, August 10, 2005
• Workshop on Classical Novae and Type Ia Supernovae, KITP, UCSB, May 20, 2005
• Astrophysics Seminar, UCSB, March 3, 2005
• JINA Nuclear Astrophysics Lunch Research Discussion, Michigan State University, January 24, 2005
• The 8th HEAD Meeting, New Orleans, September 11, 2004
• Astrophysics Seminar, UCSB, January 22, 2004
• Physics and Astrophysics of Neutron Stars, Santa Fe, July 29, 2003
• Neutron Stars on Fire, IAS, Princeton, May 12, 2003
• Astrophysics Seminar, UCSB, May 8, 2003

Links

• Introduction to Neutron Stars
• Introduction to Pulsars
• Introduction to Magnetars
• Caughlan & Fowler - Thermonuclear Reaction Rates
• NACRE - Reaction Rates for Astrophysics
• JINA Reaclib Database
• Catalogue of CVs and LMXBs
• Astronomy Meetings Schedule