Hasan Yüksel

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Bartol Research Institute &
Department of Physics and Astronomy
University of Delaware
104 The Green, Room 217, Sharp Laboratory
Newark, DELAWARE 19716

Phone: +1 (302) 831-4233
Fax: +1 (302) 831-1637
WEB: http://www.bartol.udel.edu/~yuksel
E-mail:

I joined Bartol Research Institute and the Department of Physics & Astronomy at the University of Delaware as a postdoctoral research associate in 2008. Previously, I held a postdoc position at the CCAPP and the Theoretical Astrophysics and Cosmology Group in the Physics Department of the Ohio State University. My prior education includes a Ph.D. (2005) from University of Wisconsin at Madison and a B.S. (2000) from Bilkent University in Ankara, Turkey.

My present research focuses on a wide variety of areas in Particle & Nuclear Astrophysics and Theoretical Astrophysics and Cosmology and is strongly motivated by experimental and observational data. The quality and quantity of available data is increasing at an unprecedented rate with new facilities now coming on-line, vastly improving past measurements and reaching never-before probed energy scales. This can lead to the resolution of many outstanding problems in Physics and Astrophysics. Common themes that I have been exploring recently include:

Positrons: local multi-GeV excess and 511 keV line from the Galactic Center
Astrophysical constraints on the particle identity of dark matter
Cosmological, local and neighborhood supernovae and their neutrinos
Gamma-ray bursts and star formation history of the universe
Ultra high energy cosmic rays and cosmogenic neutrinos
Physics potential of neutrino mass, mixing and oscillations

Updated lists of my publications can be found on ArXiv, Spires or ADS.

Recent Preprints

Determining the escape fraction of ionizing photons during reionization

The fraction of ionizing photons that escape their host galaxies and so are able to ionize hydrogen in the inter-galactic medium (IGM) is a critical parameter in analyses of the reionization era and early galaxy formation. Studies of the reionization history normally suffer from a degeneracy ...
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Core-Collapse Astrophysics with a Five-Megaton Neutrino Detector

The legacy of solar neutrinos suggests that large neutrino detectors should be sited underground. However, to instead go underwater bypasses the need to move mountains, allowing much larger contained water Cherenkov detectors. Reaching a scale of ~5 Megatons, the size of the proposed Deep-TITAND, would permit observations of "mini-bursts" of neutrinos from supernovae...
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Recently Published Articles

The Star Formation Rate in the Reionization Era as Indicated by Gamma-ray Bursts

High-redshift gamma-ray bursts (GRBs) offer an extraordinary opportunity to study aspects of the early Universe, including the cosmic star formation rate (SFR). Motivated by the two recent highest-z GRBs, GRB 080913 at z = 6.7 and GRB 090423 at z = 8.1, and more than four years of Swift observations...
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TeV Gamma Rays from Geminga and the Origin of the GeV Positron Excess

The Geminga pulsar has long been one of the most intriguing MeV-GeV gamma-ray point sources. We examine the implications of the recent Milagro detection of extended, multi-TeV gamma-ray emission from Geminga, finding that this reveals the existence of an ancient, powerful cosmic-ray accelerator that also can plausibly account for the multi-GeV positron excess...
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CMSSM Spectroscopy in light of PAMELA and ATIC

Dark matter neutralinos in the constrained minimal supersymmetric model (CMSSM) may account for the recent cosmic ray electron and positron observations reported by the PAMELA and ATIC experiments either through self annihilation or via decay. However, to achieve this, both scenarios require new physics beyond the 'standard' CMSSM...
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Revealing the High-Redshift Star Formation Rate with Gamma-Ray Bursts

While the high-z frontier of star formation rate (SFR) studies has advanced rapidly, direct measurements beyond z ~ 4 remain difficult, as shown by significant disagreements among different results. Gamma-ray bursts, owing to their brightness and association with massive stars, offer hope of clarifying this situation, provided that the GRB rate...
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Discovery of the Dust-Enshrouded Progenitor of SN 2008S with Spitzer

We report the discovery of the progenitor of the recent type IIn SN 2008S in the nearby galaxy NGC 6946. Surprisingly, it was not found in deep, pre-explosion optical images of its host galaxy taken with the Large Binocular Telescope, but only through examination of archival Spitzer mid-IR data...
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Conservative Constraints on Dark Matter Annihilation into Gamma Rays

Using gamma-ray data from observations of the Milky Way, Andromeda (M31), and the cosmic background, we calculate conservative upper limits on the dark matter self-annihilation cross section to monoenergetic gamma rays,_{gamma gamma}, over a wide range of dark matter masses...
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A Survey About Nothing: Monitoring a Million Supergiants for Failed Supernovae

Extragalactic transient searches have historically been limited to looking for the appearance of new sources such as supernovae. It is now possible to carry out a new kind of survey that will do the opposite, that is, search for the disappearance of massive stars. This will entail the systematic observation of galaxies...
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Circumscribing Late Dark Matter Decays Model Independently

A number of theories, spanning a wide range of mass scales, predict dark matter candidates that have lifetimes much longer than the age of the universe, yet may produce a significant flux of gamma rays in their decays today. We constrain such late decaying dark matter scenarios model-independently by utilizing...
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An Unexpectedly Swift Rise in the Gamma-ray Burst Rate

The association of long gamma-ray bursts with supernovae naturally suggests that the cosmic GRB rate should trace the star formation history. Finding otherwise would provide important clues concerning these rare, curious phenomena. Using a new estimate of Swift GRB energetics to construct a sample...
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Neutrino Constraints on the Dark Matter Total Annihilation Cross Section

In the indirect detection of dark matter through its annihilation products, the signals depend on the square of the dark matter density, making precise knowledge of the distribution of dark matter in the Universe critical for robust predictions. Many studies have focused on regions where the dark matter...
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Strong Upper Limits on Sterile Neutrino Warm Dark Matter

Sterile neutrinos are attractive dark matter candidates. Their parameter space of mass and mixing angle has not yet been fully tested despite intensive efforts that exploit their gravitational clustering properties and radiative decays. We use the limits on gamma-ray line emission from the Galactic Center...
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Press Coverage

Windows on the Universe

Bathed in the painterly light of late afternoon in France’s Loire Valley, an old church casts an orange-tinted glow that streams through a giant, arched window on the ground floor of Blois Castle. One flight up the massive stone staircase, astronomers are convening to talk about a universe of colors—and particles—well beyond this visible tableau...
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Excess positrons are linked to Geminga pulsar

Are recently-detected excesses of cosmic electrons and positrons the first direct evidence for the existence of dark matter particles? That has been the hope of many physicists, while others have suggested a more mundane origin in a nearby pulsar. Now researchers in the US claim that the excesses can be linked to high-energy gamma rays emitted by the Geminga pulsar...
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Hope fades for neutrino dark matter

Physicists in the US have cast further doubt on whether a controversial neutrino is a potential candidate for dark matter — a mysterious substance that makes up nearly a quarter of the mass of the universe...
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Stellar Lightweight Causes a Mysteriously Massive Explosion

When amateur astronomer Ron Arbour spotted an enormous explosion from 17 million light-years away in the Fireworks Galaxy (NGC 6946), many professional scientists believed that it was the final death throes of a massive dying star. However, observations from NASA's Spitzer Space Telescope unexpectedly showed that a relatively lightweight star was the source of this spectacular blast...
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Gamma-ray bursts spring cosmic surprise

Gamma-ray bursts, the biggest bangs in the cosmos since the big bang itself, were unexpectedly common in the early universe. This might tell us something crucial about the conditions that trigger these titanic fireballs...
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Messages from the Dark Side?

Want to see a mystery? Don your gamma-ray goggles and look up. You will glimpse many bright gamma-ray sources, such as supernova remnants, that are well understood. But you will also notice a diffuse, roughly circular, low-energy glow centered on the core of our Milky Way Galaxy. No one knows where it comes from...
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Finding the speed limit for galactic positrons

A new analysis of diffuse galactic gamma-ray data sets constraints on the initial energy of positrons produced in the centre of our galaxy. This limitation to at most a few mega-electron-volts severely restricts their production sites and in particular the range of masses allowed for a possible origin in lightweight dark matter...
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Wanted: Amateur stargazers to help solve supernova mystery

Ohio State University scientists have thought of a new way to solve an astronomical mystery, and their plan relies on a well-connected network of amateur stargazers and one very elusive subatomic particle. To understand what happens inside exploding stars, or supernovae, scientists need to study particles called neutrinos...
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