RESUMO
Microbursts are impulsive (<1 s) injections of electrons into the atmosphere, thought to be caused by nonlinear scattering by chorus waves. Although attempts have been made to quantify their contribution to outer belt electron loss, the uncertainty in the overall size and duration of the microburst region is typically large, so that their contribution to outer belt loss is uncertain. We combine datasets that measure chorus waves (Van Allen Probes [RBSP], Arase, ground-based VLF stations) and microburst (>30 keV) precipitation (FIREBIRD II and AC6 CubeSats, POES) to determine the size of the microburst-producing chorus source region beginning on 5 December 2017. We estimate that the long-lasting (â¼30 hr) microburst-producing chorus region extends from 4 to 8 Δ MLT and 2-5 Δ L. We conclude that microbursts likely represent a major loss source of outer radiation belt electrons for this event.
RESUMO
This study surveyed 21 otolaryngologists (70% return) and 32 speech-language pathologists (46% return) in Maine about the treatment of vocal nodules in children and adults, referral patterns, effectiveness of therapy, and adequacy of speech-language pathologists' training. Differences in opinions between the two professional groups were found in treatment of children and referral patterns.
Assuntos
Doenças da Laringe/terapia , Otolaringologia/métodos , Patologia da Fala e Linguagem/métodos , Prega Vocal/patologia , Adulto , Criança , Humanos , Doenças da Laringe/cirurgia , Maine , Encaminhamento e Consulta , Treinamento da VozRESUMO
The exact nature of ipsilateral auditory pathway suppression under dichotic stimulation remains controversial. To help resolve this controversy, the distinctive feature confusions (blend vs nonblend errors) made on a dichotic listening CV test by two hemispherectomees were analyzed. Results support ipsilateral auditory pathway suppression under dichotic CV stimulation. Ipsilateral auditory pathway suppression is discussed in terms of stimulus specificity, subject, and task difference.