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11

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Observations with the SMM gamma-ray spectrometer - The impulsive solar flares of 1980 March 29 (1981)

Kanbach, G. ; Kinzer, R. L. ; Cherry, M. L. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Gamma-ray continuum emission from 0.3 to 1 MeV was observed with the gamma-ray spectrometer on the Solar Maximum Mission satellite during two impulsive solar flares on 1980 March 29, from active region 2363 at 0918 UT and from active region 2357 at 0955 UT. Evidence is presented for a hardening of the spectrum during the impulsive phase of the flares. The photon intensity greater than 100 keV appears to decay at a slower rate than that at lower energies. Time-integrated photon spectra for both flares are incompatible with a single-temperature thermal-bremsstrahlung model. Upper limits for prompt and delayed gamma-ray lines are presented.

Keywords: SOLAR PHYSICS

Type: Astrophysical Journal; vol. 244

Format: text

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12

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Observation of the 2.223 MeV gamma-ray line on the SMM satellite - The event of 1980 June 7 (1981)

Forrest, D. J. ; Kinzer, R. L. ; Kanbach, G. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Keywords: SOLAR PHYSICS

Type: Astrophysical Journal; vol. 244

Format: text

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13

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Gamma-ray observational constraints on the origin of the optical continuum emission from the white-light flare of 1980 July 1 (1983)

Rieger, E. ; Reppin, C. ; Matz, S. M. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Results are presented for the flare of July 1, 1980, which started at approximately 1627 UT and in which simultaneous measurements were made of X-ray, gamma-ray, and optical continuum emission for the entire duration of the flare. The X-ray and gamma-ray observations were made by the Gamma-Ray Spectrometer on the Solar Maximum Mission satellite. The optical measurements were taken at the Sacramento Peak Observatory and the Big Bear Solar Observatory (Zirin and Neidig, 1981). It is found that the major white-light emission that occurs in the late phase of the flare could not have been due to heating by electron or ion precipitation. This conclusion derives from the fact that the X-ray and gamma-ray flux peaks approximately 1 minute before the maximum of the optical continuum mission emission. It is also found that approximately 73 percent of the optical continuum emission, representing a spatially and temporally distinct bright point, follows this maximum with little or no X-ray or gamma-ray emission in the same period.

Keywords: SOLAR PHYSICS

Type: Astrophysical Journal, Part 2 - Letters to the Editor (ISSN 0004-637X); 272; Sept. 15

Format: text

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14

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The starting conditions for an optically small solar gamma ray flare (1985)

Simnett, G. M. ; Ryan, J. M.

In: CASI

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Publication Date: 2019-06-28

Description: It is suggested that optically small gamma-ray flares result from gradual pre-flare acceleration of protons over approximately 1,000 s by a series of magnetohydrodynamic shocks in the low corona. A fraction of the accelerated protons are trapped in the corona where they form a seed population for future acceleration. If the shock acceleration is sufficiently rapid proton energies may exceed the gamma-ray production threshold and trigger gamma-ray emission. This occurs without the total flare energy being necessarily large. Magnetic field geometry is an important parameter.

Keywords: SOLAR PHYSICS

Type: SH-1.3-2 , 19th Intern. Cosmic Ray Conf - Vol. 4; p 82-85; NASA-CP-2376-VOL-4

Format: application/pdf

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15

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The propagation of solar flare particles in a turbulent coronal loop (1985)

Ryan, J. M.

In: CASI

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Publication Date: 2019-06-28

Description: Energetic solar flare particles, both electrons and protons, must survive the turbulent environment of a flaring loop and propogate to the lower corona or chromosphere in order to produce hard X-ray and gamma ray bursts. This plasma turbulence, often observed in soft X-ray line widths to be in excess of 100 km/s, is presumably capable of efficiently scattering the fast flare particles. This prevents to some degree the free streaming of accelerated particles and depending on the amplitude of the turbulence, restricts the particles to diffusive propagation along the length of the loop to the target chromosphere. In addition this turbulence is capable of performing additional acceleration of the fast particles by the second order Fermi mechanism. For compact flares with rise times 10s, the acceleration effect is small and the propagation of the particles is governed by spatial diffusion and energy loss in the ambient medium. The solution of the time dependent diffusion equation with velocity dependent diffusion and energy loss coefficients yields for the case of nonrelativistic protons particle precipitation rates which are necessary for calculating thick target gamma ray emission and also yields the total thin target emissivity.

Keywords: SOLAR PHYSICS

Type: SH-1.1-3 , 19th Intern. Cosmic Ray Conf - Vol. 4; p 1; NASA-CP-2376-VOL-4

Format: application/pdf

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16

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The behaviour of minor species in the solar wind (1975)

Ryan, J. M. ; Axford, W. I.

In: Other Sources

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Publication Date: 2019-06-27

Description: The flow of minor species in the solar wind is considered on the basis of a model in which all species are heated in an arbitrary manner as they leave the sun and the minor species interact with the background proton-electron plasma through the radial electric field associated with the latter and by means of Coulomb collisions. In order to produce satisfactory results in which the ions all move at more or less the same speed at the orbit of the earth, it is necessary to introduce heating functions such that each species is given energy in proportion to its mass. Coulomb collisions are found to be important as a means of removing energy from the heavier species close to the sun and bringing all species closer to thermal equilibrium at great distances from the sun. Substantial velocity differences can occur between species, especially close to the sun. Furthermore it is not difficult to construct solutions in which the bulk velocity of the helium ions exceeds that of the solar wind, as is often observed.

Keywords: SOLAR PHYSICS

Type: Zeitschrift fuer Geophysik; 41; 3, 19; 1975

Format: text

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17

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Multiple relaxation and inhomogeneous broadening in resonance enhanced Raman scattering - Application to tunable infrared generation (1989)

Ryan, J. C. ; Lawandy, N. M.

In: Other Sources

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Publication Date: 2019-07-12

Description: The solutions for the imaginary susceptibility of the Raman field transition with arbitrary relaxation rates and field strengths are examined for differing sets of relaxation rates with emphasis on alkali metal vapors which have spontaneous emission dominated relaxation. The model is further expanded to include Doppler broadening and used to predict the peak gain as a function of detuning for a frequency doubled alexandrite laser-pumped cesium vapor gain cell.

Keywords: LASERS AND MASERS

Type: Applied Physics B - Photophysics and Laser Chemistry (ISSN 0721-7269); 48; 173-182

Format: text

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18

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Time-dependent coronal shock acceleration of energetic solar flare particles (1986)

Lee, M. A. ; Ryan, J. M.

In: Other Sources

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Publication Date: 2019-07-12

Description: A global time-dependent model is presented for the coronal and interplanetary shock acceleration and propagation of energetic solar flare particles. The calculations are carried out to help prove that coronal shock acceleration of solar flare particles is responsible for energetic solar flare event data gathered in interplanetary space. The model is based on the theory of diffusive shock acceleration, and requires particle speeds to be much greater than bulk velocities. Also, sufficient scattering must occur upstream and downstream of the shock for the particle scattering mean free path to be smaller than the characteristic scale lengths, which causes the same particles to encounter the shock repeatedly. A spherically symmetric shock wave is assumed, which leads to the same emission configuration for impulsively and monoenergetically emitted particles. Consideration is given to acceleration by compression at the shock front, adiabatic deceleration in the divergent downstream flow, the temporal evolution of the shock and the three-dimensional geometry of the corona. The model is used to generate normalized proton omnidirectional distributions at 1 AU and at the shock front. The spectral exhibit trends similar to those in observational data, especially proton acceleration times and the proton distribution profiles at 1 AU.

Keywords: SOLAR PHYSICS

Type: Astrophysical Journal, Part 1 (ISSN 0004-637X); 303; 829-842

Format: text

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19

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Instabilities in a three-level coherently pumped laser (1987)

Lawandy, N. M. ; Ryan, J. C.

In: Other Sources

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Publication Date: 2019-07-12

Description: A theory for a coherently pumped, homogeneously broadened laser is developed which predicts instability at excitations 1.6 times threshold. The system exhibits a period-doubling sequence, chaos, and a period-three window.

Keywords: LASERS AND MASERS

Type: Optics Communications (ISSN 0030-4018); 64; 54-58

Format: text

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