4,090 research outputs found
A Copernican View of Health Care Antitrust
Sage and Hammer use the analogy of Copernican astronomy to suggest that understanding the dramatic change wrought by managed care requires a conceptual reorientation regarding the meaning of competition in health care and its appropriate legal and regulatory oversight. Both share the belief that misperceiving the world limits potential for technical and social progress
Using A Nameserver to Enhance Control System Efficiency
The Thomas Jefferson National Accelerator Facility (Jefferson Lab) control
system uses a nameserver to reduce system response time and to minimize the
impact of client name resolution on front-end computers. The control system is
based on the Experimental Physics and Industrial Control System (EPICS), which
uses name-based broadcasts to initiate data communication. By default, when
EPICS process variables (PV) are requested by client applications, all
front-end computers receive the broadcasts and perform name resolution
processing against local channel name lists. The nameserver is used to offload
the name resolution task to a single node. This processing, formerly done on
all front-end computers, is now done only by the nameserver. In a control
system with heavily loaded front-end computers and high peak client connection
loads, a significant performance improvement is seen. This paper describes the
name server in more detail, and discusses the strengths and weaknesses of
making name resolution a centralized service.Comment: ICALEPCS 200
Isomonodromic deformations of connections with singularities of parahoric formal type
In previous work, the authors have developed a geometric theory of
fundamental strata to study connections on the projective line with irregular
singularities of parahoric formal type. In this paper, the moduli space of
connections that contain regular fundamental strata with fixed combinatorics at
each singular point is constructed as a smooth Poisson reduction. The authors
then explicitly compute the isomonodromy equations as an integrable system.
This result generalizes work of Jimbo, Miwa, and Ueno to connections whose
singularities have parahoric formal type.Comment: 32 pages. One of the main theorems (Theorem 5.1) has been
significantly strengthened. It now states that the isomonodromy equations
give rise to an integrable system on the moduli space of framed connections
with fixed combinatorics instead of only on a principal GL_n bundle over this
space. Sections 5 and 6 have been substantially rewritte
Loading of a surface-electrode ion trap from a remote, precooled source
We demonstrate loading of ions into a surface-electrode trap (SET) from a
remote, laser-cooled source of neutral atoms. We first cool and load
neutral Sr atoms into a magneto-optical trap from an oven that
has no line of sight with the SET. The cold atoms are then pushed with a
resonant laser into the trap region where they are subsequently photoionized
and trapped in an SET operated at a cryogenic temperature of 4.6 K. We present
studies of the loading process and show that our technique achieves ion loading
into a shallow (15 meV depth) trap at rates as high as 125 ions/s while
drastically reducing the amount of metal deposition on the trap surface as
compared with direct loading from a hot vapor. Furthermore, we note that due to
multiple stages of isotopic filtering in our loading process, this technique
has the potential for enhanced isotopic selectivity over other loading methods.
Rapid loading from a clean, isotopically pure, and precooled source may enable
scalable quantum information processing with trapped ions in large, low-depth
surface trap arrays that are not amenable to loading from a hot atomic beam
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