The Formation and Fragmentation of Disks around Primordial Protostars

The very first stars to form in the Universe heralded an end to the cosmic dark ages and introduced new physical processes that shaped early cosmic evolution. Until now, it was thought that these stars lived short, solitary lives, with only one extremely massive star, or possibly a very wide binary system, forming in each dark matter minihalo. Here we describe numerical simulations that show that these stars were, to the contrary, often members of tight multiple systems. Our results show that the disks that formed around the first young stars were unstable to gravitational fragmentation, possibly producing small binary and higher-order systems that had separations as small as the distance between the Earth and the Sun.Comment: This manuscript has been accepted for publication in Science. This version has not undergone final editing. Please refer to the complete version of record at http://www.sciencemag.org

Open questions in the study of population III star formation

The first stars were key drivers of early cosmic evolution. We review the main physical elements of the current consensus view, positing that the first stars were predominantly very massive. We continue with a discussion of important open questions that confront the standard model. Among them are uncertainties in the atomic and molecular physics of the hydrogen and helium gas, the multiplicity of stars that form in minihalos, and the possible existence of two separate modes of metal-free star formation.Comment: 15 pages, 2 figures. To appear in the conference proceedings for IAU Symposium 255: Low-Metallicity Star Formation: From the First Stars to Dwarf Galaxie

Black Hole Feedback On The First Galaxies

We study how the first galaxies were assembled under feedback from the accretion onto a central black hole (BH) that is left behind by the first generation of metal-free stars through self-consistent, cosmological simulations. X-ray radiation from the accretion of gas onto BH remnants of Population III (Pop III) stars, or from high-mass X-ray binaries (HMXBs), again involving Pop III stars, influences the mode of second generation star formation. We track the evolution of the black hole accretion rate and the associated X-ray feedback starting with the death of the Pop III progenitor star inside a minihalo and following the subsequent evolution of the black hole as the minihalo grows to become an atomically cooling galaxy. We find that X-ray photoionization heating from a stellar-mass BH is able to quench further star formation in the host halo at all times before the halo enters the atomic cooling phase. X-ray radiation from a HMXB, assuming a luminosity close to the Eddington value, exerts an even stronger, and more diverse, feedback on star formation. It photoheats the gas inside the host halo, but also promotes the formation of molecular hydrogen and cooling of gas in the intergalactic medium and in nearby minihalos, leading to a net increase in the number of stars formed at early times. Our simulations further show that the radiative feedback from the first BHs may strongly suppress early BH growth, thus constraining models for the formation of supermassive BHs.Astronom

The Evolution of the CareerAdvance® Program in Tulsa, Oklahoma

CareerAdvance®n collaboration with a multi-disciplinary team of partners, the Ray Marshall Center (RMC) is developing and implementing a sectoral workforce development strategy for low-skilled, low-income parents of children served by early childhood programs in Tulsa, Oklahoma. There is emerging evidence that children whose parents hold stable jobs with progressively rising incomes exhibit better academic and behavioral outcomes. RMC and its partners have undertaken a dual-generation approach to poverty reduction that strengthens the investment in early childhood development by equipping Head Start parents with workforce training and gainful employment opportunities. This approach employs a more holistic model than traditional workforce development programs, as it also includes employee counseling and other support services to help parents complete training and adult basic education, retain their jobs, advance in their careers, and become economically self-sufficient. The goal is to develop a sustainable sectoral strategy that can be replicated beyond Tulsa to other communities across the nation. In the first phase of the project (2008-2009), RMC designed a sectoral job development strategy focused on industries featuring jobs that pay well and provide much-needed employee benefits (e.g., health insurance, annual and sick leave) as well as career advancement opportunities. In April 2009, Community Action Program of Tulsa County launched the pilot, CareerAdvance, at two Head Start sites in Tulsa involving 15 parents. The components of the CareerAdvance are 1) GED and college readiness instruction, as needed; 2) skills training in the healthcare sector progressing from Certified Nursing Aide to Licensed Practical Nurse to Registered Nurse; 3) weekly peer support meetings addressing a flexible set of topics (e.g., life skills, work readiness, family finances); 4) conditional cash incentives (up to $3,000 a year) for participants meeting specified benchmarks to reinforce continued participation and help offset foregone earnings; and 5) workforce intermediation between healthcare employers and training institutions provided through Workforce Tulsa. The report on the project’s first year of operation is available at the link below. In partnership with Harvard University and the University of Oklahoma – Tulsa School of Medicine, a second pilot site was opened in July 2009 at a Tulsa Educare Center. The second pilot, EduCareers, includes all components described above as well as enhanced mental health services for participating households, curriculum enhancements for the children, parent engagement training, and a medical home. The CareerAdvance project has now been expanded to 2015 with support from the U.S. Department of Health and Human Services’ Administration for Children and Families. RMC and partners at Northwestern and Columbia University have been engaged to provide ongoing on data collection, implementation and outcomes analysis of project participants.George Kaiser Family Foundation, W. K. Kellogg Foundation, U.S. Department of Health and Human Services' Administration for Children and FamiliesRay Marshall Center for the Study of Human Resource

Fabrication of integrated planar gunn diode and micro-cooler on GaAs substrate

We demonstrate fabrication of an integrated micro cooler with the planar Gunn diode and characterise its performance. First experimental results have shown a small cooling at the surface of the micro cooler. This is first demonstration of an integrated micro-cooler with a planar Gunn diode

Feynman Diagrams and Differential Equations

We review in a pedagogical way the method of differential equations for the evaluation of D-dimensionally regulated Feynman integrals. After dealing with the general features of the technique, we discuss its application in the context of one- and two-loop corrections to the photon propagator in QED, by computing the Vacuum Polarization tensor exactly in D. Finally, we treat two cases of less trivial differential equations, respectively associated to a two-loop three-point, and a four-loop two-point integral. These two examples are the playgrounds for showing more technical aspects about: Laurent expansion of the differential equations in D (around D=4); the choice of the boundary conditions; and the link among differential and difference equations for Feynman integrals.Comment: invited review article from Int. J. Mod. Phys.

STAT3-Deficient hyperimmunoglobulin E syndrome: report of a case with orofacial granulomatosis–like disease

Hyperimmunoglobulin E syndrome (HIES) is a rare heterogeneous primary immunodeficiency disorder characterized by infections of the lung and skin, elevated serum immunoglobulin E, and involvement of soft and bony tissues. Autosomal dominant HIES and related disorders are caused by defects in the Janus activated kinase–signal transducer and activator of transcription signaling pathway, leading to reduced numbers of T helper cell type 17 and impaired production of interleukin (IL)-17 A, IL-17 F, and IL-22. In addition, neutrophils have chemotactic defects, resulting in impaired responses at skin and lung sites. We report here a case of orofacial granulomatosis–like disease in a teenage boy ultimately found to have autosomal dominant HIES caused by a heterozygous mutation in the STAT3 gene

The formation of the first galaxies and the transition to low-mass star formation

The formation of the first galaxies at redshifts z ~ 10-15 signaled the transition from the simple initial state of the universe to one of ever increasing complexity. We here review recent progress in understanding their assembly process with numerical simulations, starting with cosmological initial conditions and modelling the detailed physics of star formation. In this context we emphasize the importance and influence of selecting appropriate initial conditions for the star formation process. We revisit the notion of a critical metallicity resulting in the transition from primordial to present-day initial mass functions and highlight its dependence on additional cooling mechanisms and the exact initial conditions. We also review recent work on the ability of dust cooling to provide the transition to present-day low-mass star formation. In particular, we highlight the extreme conditions under which this transition mechanism occurs, with violent fragmentation in dense gas resulting in tightly packed clusters.Comment: 16 pages, 7 figures, appeared in the conference proceedings for IAU Symposium 255: Low-Metallicity Star Formation: From the First Stars to Dwarf Galaxies, a high resolution version (highly recommended) can be found at http://www.ita.uni-heidelberg.de/~tgreif/files/greif08.pd