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Neutron diffraction study of low-temperature magnetic phase diagram of an isosceles-triangular-lattice Ising antiferromagnet CoNb_{2} O_{6} (2016)

S. Kobayashi, S. Mitsuda, S. Hosaka, H. Tamatsukuri, T. Nakajima, H. Koorikawa, K. Prokeš, and K. Kiefer

American Physical Society (APS)

In: Physical Review B

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Publication Date: 2016-10-28

Description: Author(s): S. Kobayashi, S. Mitsuda, S. Hosaka, H. Tamatsukuri, T. Nakajima, H. Koorikawa, K. Prokeš, and K. Kiefer A low-temperature magnetic phase diagram under magnetic fields along the orthorhombic a axis of an isosceles-triangular-lattice antiferromagnet CoNb 2 O 6 was investigated through single-crystal neutron diffraction measurements made at temperatures down to T = 0.5 K . We produced a phase diagram that consi… [Phys. Rev. B 94, 134427] Published Thu Oct 27, 2016

Keywords: Magnetism

Print ISSN: 1098-0121

Electronic ISSN: 1095-3795

Topics: Physics

Published by American Physical Society (APS)

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Observation of magnetic domain and bubble structures in magnetoelectric Sr_{3}Co_{2}Fe_{24}O_{41} (2017)

H. Nakajima, H. Kawase, K. Kurushima, A. Kotani, T. Kimura, and S. Mori

American Physical Society (APS)

In: Physical Review B

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Publication Date: 2017-07-22

Description: Author(s): H. Nakajima, H. Kawase, K. Kurushima, A. Kotani, T. Kimura, and S. Mori The magnetic domain and bubble structures in the Z-type hexaferrite S r 3 C o 2 F e 24 O 41 were investigated using Lorentz microscopy. This hexaferrite exhibits a room-temperature magnetoelectric effect that is attributed to its transverse conical spin structure (TC phase). Upon heating, the TC phase transfo... [Phys. Rev. B 96, 024431] Published Fri Jul 21, 2017

Keywords: Magnetism

Print ISSN: 1098-0121

Electronic ISSN: 1095-3795

Topics: Physics

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Microwave and X-ray observations of delayed brightenings at sites remote from the primary flare locations (1985)

Nakajima, H. ; Kosugi, T. ; Nelson, G. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: Five examples of solar flares observed with the 17-GHz interferometer at Nobeyama in which a secondary microwave burst occurred at a distance of 100,000 km to 1,000,000 km from the primary flare site are presented. The secondary microwave burst in all five cases had a similar time profile to the primary burst with a delay of 2 to 25 s. The velocity of a triggering agent inferred from this delay and spatial separation is 10,000 km to 100,000 km/s. The intensity of the secondary burst was a factor of 3 to 25 smaller than that of the primary burst in all events except for one case in which it was a factor of 2 larger. The polarization degree of the secondary burst at 17 GHz was 35 percent, significantly higher than the average value for typical impulsive bursts. Two of the events were accompanied by meterwave type III/V bursts located high in the corona between the primary and secondary sites. For two of the other events, X-ray images of the secondary source were obtained with the hard-X-ray imaging spectrometer on the Solar Maximum Mission. These observations strongly suggest that the distant microwave bursts were produced by electrons with energies of 10 keV to 100 keV which were channeled along a huge loop from the main flare site to the remote location.

Keywords: SOLAR PHYSICS

Type: Astrophysical Journal, Part 1 (ISSN 0004-637X); 288; 806-819

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Position measurements of rapidly fluctuating microwave bursts (1986)

Nakajima, H. ; Kai, K.

In: CASI

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Publication Date: 2013-08-31

Description: It was investigated whether microwave source positions change while the total fluxes of hard X-rays and microwaves show remarkable rapid fluctuations of the order of seconds. The position measurements were made in one dimension (east-west direction) with the 17 GHz interferometer at Nobeyama. Position changes greater than a few arc seconds can be detected. The result shows that significant position changes are found for five of seven bursts but that no position changes greater than 3 arc seconds are found for the remaining two bursts.

Keywords: SOLAR PHYSICS

Type: NASA. Goddard Space Flight Center Rapid Fluctuations in Solar Flares; p 147-153

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Signatures of the coalescence instability in solar flares (1984)

Sakai, J. ; Brunel, F. ; Nakajima, H. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: Double sub-peak structures in the quasi periodic oscillations in the time profiles of solar flares in 1980 and 1982 are discussed. Computer simulations of the coalescence instability of two current loops agree with observations of the (widely differing) flares. The simultaneous accelerations of electrons and ions, and the double sub-peak structure in quasi periodic pulses are well explained. The double sub-peak structure is more pronounced when the currents in the two loops are sufficient for fast coalescence to occur. This corresponds to the 1980 flare. When the currents are insufficient for fast coalescence, the double sub-peak structure is less pronounced, as in the 1982 flare. Observations suggest the collision of the two microwave sources for the 1982 event. It is argued that this mechanism is a plausible particle acceleration mechanism in solar flares.

Keywords: SOLAR PHYSICS

Type: ESA Plasma Astrophys.; p 193-196

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Signatures of current loop coalescence in solar flares (1986)

Sakai, J. ; Brunel, F. ; Kosugi, T. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: The nonlinear coalescence instability of current carrying solar loops can explain many of the characteristics of the solar flares such as their impulsive nature, heating and high energy particle acceleration, amplitude oscillations of electromagnetic emission as well as the characteristics of 2-D microwave images obtained during a solar flare. The physical characteristics of the explosive coalescence of currents are presented in detail through computer simulation and theory. Canonical characteristics of the explosive coalescence are: (1) a large amount of impulsive increase of kinetic energies of electrons and ions; (2) simultaneous heating and acceleration of electrons and ions in high and low energy spectra; (3) ensuing quasi-periodic amplitude oscillations in fields and particle quantities; and (4) the double peak (or triple peak) structure in these profiles, participate in the coalescence process, yielding varieties of phenomena.

Keywords: SOLAR PHYSICS

Type: NASA. Goddard Space Flight Center Rapid Fluctuations in Solar Flares; p 393-434

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Microwave and X-ray observations of delayed brightenings at sites remote from the primary flare locations (1984)

Nelson, G. ; Kai, K. ; Dennis, B. R. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Five examples of solar flares observed with the 17-GHz interferometer at Nobeyama in which a secondary microwave burst occurred at a distance of 100,000 km to 1,000,000 km from the primary flare site are presented. The secondary microwave burst in all five cases had a similar time profile to the primary burst with a delay of 2 to 25 s. The velocity of a triggering agent inferred from this delay and spatial separation is 10,000 km to 100,000 km/s. The intensity of the secondary burst was a factor of 3 to 25 smaller than that of the primary burst in all events except for one case in which it was a factor of 2 larger. The polarization degree of the secondary burst at 17 GHz was 35%, significantly higher than the average value for typical impulsive bursts. Two of the events were accompanied by meterwave type III/V bursts located high in the corona between the primary and secondary sites. For two of the other events, X-ray images of he secondary source were obtained with the hard-X-ray imaging spectrometer on the Solar Maximum Mission. These observations strongly suggest that the distant microwave bursts were produced by electrons with energies of 10 keV to 100 keV which were channeled along a huge loop from the main flare site to the remote location.

Keywords: SOLAR PHYSICS

Type: NASA-TM-86140 , NAS 1.15:86140

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Current loop coalescence model of solar flares (1987)

Kosugi, T. ; Brunel, F. ; Nakajima, H. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-12

Description: A computer simulation and theoretical study of the physical characteristics of the explosive coalescence of current-carrying loops is presented. Characteristics of the explosive coalescence include a large impulsive increase of the kinetic energies of electrons and ions, the simultaneous heating and acceleration of electrons and ions in high and low energy ranges, and a break in the energy spectra of electrons and ions. A characteristic double subpeak structure is found in the quasi-periodic oscillations found in the time profiles of the solar flares of June 7, 1980 and November 26, 1982 which can be explained in terms of the coalescence instability of two current loops.

Keywords: SOLAR PHYSICS

Type: Astrophysical Journal, Part 1 (ISSN 0004-637X); 321; 1031-104

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Radio evidence for a delayed acceleration process in solar flares (1986)

Nakajima, H. ; Kai, K. ; Nelson, G. J. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-12

Description: Observations of six delayed solar radio bursts at dm and mm frequencies are analyzed. The events included five Type II bursts. The data comprise 17 GHz interferometer data and ISEE-3 and SMM hard X-ray spectrometry data which peaked 0.5-1.0 hr after the main radio bursts. The data indicate the electrons with energies in the MeV range continue to be excited for tens of minutes after the impulsive phase acceleration. The continuing acceleration occurs in a large magnetic structure extending to at least 200,000 km altitude. The radio signals arise from a columnar source, the microwave signals being emitted near a leg or legs and meterwave emissions originating from the top of the magnetic structure.

Keywords: SOLAR PHYSICS

Type: Solar Physics (ISSN 0038-0938); 105; 383-398

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