7,643 research outputs found
A flight investigation of a terminal area navigation and guidance concept for STOL aircraft
A digital avionics system referred to as STOLAND has been test-flown in the NASA CV-340 to obtain performance data for time-controlled guidance in the manual flight director mode. The advanced system components installed in the cockpit included an electronic attitude director indicator and an electronic multifunction display. Navigation guidance and control computations were all performed in the digital computer. Approach paths were flown which included a narrow 180-deg turn and a 1-min, 5-deg straight-in approach to the 30-m altitude go-around point. Results are presented for 20 approaches: (1) blended radio/inertial navigation using TACAN and a microwave scanning beam landing guidance system (MODILS) permitted a smooth transition from area navigation (TACAN) to precision terminal navigation (MODILS), (2) guidance system (flight director) performance measured at an altitude of 30.5 m was within that prescribed for category II CTOL operations on a standard runway, and (3) time of arrival at a point about 2 mi from touchdown was about 4 sec plus or minus sec later than the computed nominal arrival time
A flight investigation of a terminal area navigation and guidance concept for STOL aircraft
A digital avionics system was installed in the CV-340 transport aircraft. Flight tests were made to obtain preliminary performance data in the manual flight director mode using time controlled guidance. These tests provide a basis for selection of terminal area guidance, navigation, and control system concepts for short haul aircraft and for investigating operational procedures
Magnetocaloric effect and improved relative cooling power in (La0.7Sr0.3MnO3/SrRuO3) superlattices
Magnetic properties of a series of (La0.7Sr0.3MnO3/SrRuO3) superlattices,
where the SrRuO3 layer thickness is varying, are examined. A room-temperature
magnetocaloric effect is obtained owing to the finite size effect which reduces
the TC of La0.7Sr0.3MnO3 layers. While the working temperature ranges are
enlarged,, -DeltaSmax values remains similar to the values in polycrystalline
La0.7Sr0.3MnO3. Consequently, the relative cooling powers are significantly
improved, the microscopic mechanism of which is related to the effect of the
interfaces at La0.7Sr0.3MnO3/SrRuO3 and higher nanostructural disorder. This
study indicates that artificial oxide superlattices/multilayers might provide
an alternative pathway in searching for efficient room-temperature magnetic
refrigerators for (nano)microscale systems.Comment: 14^pages, 3 figures, Submitted to J. Phys. Cond. Ma
Complete spectrum of the infinite- Hubbard ring using group theory
We present a full analytical solution of the multiconfigurational
strongly-correlated mixed-valence problem corresponding to the -Hubbard ring
filled with electrons, and infinite on-site repulsion. While the
eigenvalues and the eigenstates of the model are known already, analytical
determination of their degeneracy is presented here for the first time. The
full solution, including degeneracy count, is achieved for each spin
configuration by mapping the Hubbard model into a set of Huckel-annulene
problems for rings of variable size. The number and size of these effective
Huckel annulenes, both crucial to obtain Hubbard states and their degeneracy,
are determined by solving a well-known combinatorial enumeration problem, the
necklace problem for beads and two colors, within each subgroup of the
permutation group. Symmetry-adapted solution of the necklace
enumeration problem is finally achieved by means of the subduction of coset
representation technique [S. Fujita, Theor. Chim. Acta 76, 247 (1989)], which
provides a general and elegant strategy to solve the one-hole infinite-
Hubbard problem, including degeneracy count, for any ring size. The proposed
group theoretical strategy to solve the infinite- Hubbard problem for
electrons, is easily generalized to the case of arbitrary electron count ,
by analyzing the permutation group and all its subgroups.Comment: 31 pages, 4 figures. Submitte
Coronagraph particulate measurements. Skylab flight experiment T025
Major results of the Skylab T025 Coronagraph experiment designed to monitor the particulate contamination about the spacecraft and to study the earth's atmospheric aerosol distribution are presented. A model for comet outbursts based on the properties of amorphous ice and ground based narrow-band and white light photography of comet Kohoutek ten days to perihelion are included. The effect of atmospheric refraction on the analysis of the T025 atmospheric data was also investigated
Diagnosis of multiple sclerosis: progress and challenges
The diagnosis of multiple sclerosis (MS) is based on typical neurological symptoms and signs along with evidence of dissemination of central nervous system (CNS) lesions in space and time. Magnetic resonance imaging (MRI) is often sufficient to confirm the diagnosis when characteristic lesions of MS accompany a typical clinical syndrome, but in some patients, further supportive information can be obtained from cerebrospinal fluid examination and neurophysiological testing. It is important to differentiate MS not only from other diseases in which demyelination is a feature e.g. neuromyelitis spectrum disorder (NMOSD) and acute disseminated encephalomyelitis (ADEM), but also non-demyelinating conditions such as chronic small vessel disease and other inflammatory, granulomatous, infective, metabolic and genetic causes that can mimic MS. Advances in MRI, serological and genetic tests have greatly helped in distinguishing MS from these conditions, but misdiagnosis can occur. In this review, we explore the progress and challenges in the diagnosis of MS with reference to diagnostic criteria, important differential diagnoses, current controversies and uncertainties, and future prospects
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