Presentation is loading. Please wait.

Presentation is loading. Please wait.

AJ Ribeiro Irregs.Short Meeting Title, Date A survey of plasma irregularities seen by the mid-latitude Blackstone SuperDARN radar.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "AJ Ribeiro Irregs.Short Meeting Title, Date A survey of plasma irregularities seen by the mid-latitude Blackstone SuperDARN radar."— Presentation transcript:

1 AJ Ribeiro (Space@VT)Mid-Latitude Irregs.Short Meeting Title, Date A survey of plasma irregularities seen by the mid-latitude Blackstone SuperDARN radar A. J. Ribeiro [1], J.M. Ruohoniemi [1], J.B.H. Baker [1], L.B.N. Clausen [1], R.A. Greenwald [1], M. Lester [2] [1] Bradley Department of Electrical and Computer Engineering, Virginia Tech, Blacksburg, Virginia, USA [2] Department of Physics and Astronomy, University of Leicester, UK SuperDARN Workshop 2011

2 Outline AJ Ribeiro (Space@VT)SuperDARN 201106/02/11 Outline Background Dataset Observations Convection Patterns Conclusions

3 Mid-latitude Irregularities AJ Ribeiro (Space@VT)SuperDARN 201106/02/11 Mid-latitude IrregularitiesBackground SuperDARN expanded equatorward in 2004 with the construction of the Wallops Island radar at L = 2.4 The reason for the expansion was to provide coverage of the auroral oval as it expanded equatorward during storm-time Surprisingly, quiet time irregularities were observed very frequently The type of plasma irregularities frequently observed by the SuperDARN radars were first described by Greenwald et al. [2006] in a case study They noted that the irregularities had Doppler velocities and spectral widths in the 10s of m/s They also noted that the irregularities were observed with great frequency (> 50 % of nights)

4 Dataset AJ Ribeiro (Space@VT)SuperDARN 201106/02/11 Mid-Latitude IrregularitiesDataset Ribeiro et al. [2011] described a way to reliably identify periods of ionospheric scatter in mid-latitude data This allows for a statistical analysis of the irregularities In order to select for quiet time irregularities, ionospheric events are separated by their velocity profile If the 97 th percentile of the distribution is below 120 m/s and the 3 rd percentile is above -120 m/s, the event is flagged as low-velocity Otherwise it is flagged as high- velocity A range-time plot of a low-velocity event used in this analysis

5 Frequency of occurrence AJ Ribeiro (Space@VT)SuperDARN 20106/02/11 Mid-Latitude IrregularitiesObservations 1 Three years of data (2008- 2010) from the Blackstone radar was searched for ionospheric events, and separated into high- and low-velocity types The figure shows the probability of occurrence of low-velocity events, organized by month The probability is quite variable, but 70% is a typical value

6 Local Time Dependence AJ Ribeiro (Space@VT)SuperDARN 201106/02/11 Mid-Latitude IrregularitiesObservations 2 The figure to the left shows typical start/stop times of low-velocity ionospheric scatter seen by the Blackstone radar and sunset/sunrise for Chicago The start and stop times coincide very well with sunset and sunrise Greenwald et al. [2006] suggested that a conducting E region was responsible for shorting out electric fields needed for the generation of irregularities It is also possible that the ionosphere is too dense at mid- latitudes during the day for the rays to penetrate to F region altitudes

7 Latitude Distribution AJ Ribeiro (Space@VT)SuperDARN 201106/02/11 Mid-Latitude IrregularitiesObservations 3 Magnetic latitude distribution of ionospheric irregularities The mid-latitude ionospheric irregularities seem to be nearly fixed in magnetic latitude This is especially true for the low- velocity events This suggests that the mid-latitude ionosphere is filled with these irregularities The latitude at which they are observed is simply a result of propagation conditions

8 Latitude Distribution AJ Ribeiro (Space@VT)SuperDARN 201106/02/11 Mid-Latitude IrregularitiesObservations 4 Normalized magnetic latitude distributions for the ionospheric irregularities

9 Comparison to Auroral Oval AJ Ribeiro (Space@VT)SuperDARN 201106/02/11 Mid-latitude IrregularitiesObservations 5 Distribution of latitude relative to the auroral oval for high and low-velocity events OVATION is a technique that approximates the boundaries of the auroral oval [Newell et al., 2002] Using the OVATION equatorward boundary locations, we compared the location of the irregularities to the auroral oval The low-velocity events are subauroral and fixed in latitude as the oval expands equatorward

10 Comparison to Plasmapause AJ Ribeiro (Space@VT)SuperDARN 201106/02/11 Mid-Latitude IrregularitiesObservations 6 Distribution of latitude relative to the plasmapause model for high and low-velocity events Moldwin et al. [2002] used CRESS measurements to develop a model for the location of the plasmapause When compared with the plasmapause model, the low velocity events are shown to be equatorward of the plasmapause This means that they lie on field lines that are conjugate to the plasmapause

11 Convection patterns AJ Ribeiro (Space@VT)SuperDARN 201106/02/11 Mid-Latitude IrregularitiesConvection Patterns In order to generate convection patterns, 3 years of BKS data and 1 year of FHE data are binned by MLT, MLAT, and Azimuth Vectors are fit to these bins For quiet-time, predominantly westward flow across the nightside Eastward turning before dawn

12 Convection patterns AJ Ribeiro (Space@VT)SuperDARN 201106/02/11 Mid-Latitude IrregularitiesConvection Patterns 2 During more disturbed periods, number of points is fewer Pattern is basically the same Westward convection across most of the nightside Apparent eastward turning before dawn

13 Overlapping FOV AJ Ribeiro (Space@VT)SuperDARN 201106/02/11 Mid-Latitude IrregularitiesConvection Patterns 3 Overlapping fields of view of BKS and FHE, as well as FHW and CVE allow for common- volume analysis

14 Overlapping FOV AJ Ribeiro (Space@VT)SuperDARN 201106/02/11 Mid-Latitude IrregularitiesConvection Patterns 3 With these overlapping fields of view, we can get true 2-D velocities for convection mapping for use in patterns, or in case studies

15 Conclusions AJ Ribeiro (Space@VT)SuperDARN 201106/02/11 Mid-Latitude IrregularitiesConclusions The ionospheric scatter that is classified as low-velocity is equatorward of both the auroral oval and the plasmapause These irregularities lie on closed field lines that map out to the plasmasphere The mid-latitude SuperDARN radars can be used to study convection patterns in the plasmasphere Common-volume analysis can provide 2-D flows Comparison of radar backscatter with TEC could prove useful

16 Questions? AJ Ribeiro (Space@VT)SuperDARN 201106/02/11 Mid-Latitude Irregularities

17 References AJ Ribeiro (Space@VT)SuperDARN 201106/02/11 Mid-Latitude Irregularities Greenwald, R. A., K. Oksavik, P. J. Erickson, F. D. Lind, J. M. Ruohoniemi, J. B. H. Baker, and J. W. Gjerloev (2006), Identification of the temperature gradient instability as the source of decameter-scale ionospheric irregularities on plasmapause field lines, Geophys. Res. Lett., 33, L18105, doi:10.1029/2006GL026581. Moldwin, M. B., L. Downward, H. K. Rassoul, R. Amin, and R. R. Anderson (2002), A new model of the location of the plasmapause: CRRES results, J. Geophys. Res., 107(A11),1339,doi:10.1029/2001JA009211. Newell, P. T., T. Sotirelis, J. M. Ruohoniemi, J. F. Carbary, K. Liou, J. P. Skura, C. - I. Meng, C. Deehr, D. Wilkinson, and F. J. Rich (2002), OVATION: Oval variation, assessment, tracking, intensity, and online nowcasting, Ann. Geophys., 20, 1039-1047, doi:10.5194/angeo-20-1039-2002.

Download ppt "AJ Ribeiro Irregs.Short Meeting Title, Date A survey of plasma irregularities seen by the mid-latitude Blackstone SuperDARN radar."

Similar presentations

SuperDARN is a network of HF radars (8-20 MHz) used to study the convection in the Earth's ionosphere at altitudes between 90 and 400 km and at magnetic.

SuperDARN is a network of HF radars (8-20 MHz) used to study the convection in the Earth's ionosphere at altitudes between 90 and 400 km and at magnetic.
“Rates of occurrence of TIGER HF radar echo parameters sorted according to the K p index and the IMF - early results” M. L. Parkinson 1, J. C. Devlin 2,

“Rates of occurrence of TIGER HF radar echo parameters sorted according to the K p index and the IMF - early results” M. L. Parkinson 1, J. C. Devlin 2,
“Simultaneous measurements of convection changes in the high-latitude day- and night- side ionosphere with the Halley and TIGER HF backscatter radars -

“Simultaneous measurements of convection changes in the high-latitude day- and night- side ionosphere with the Halley and TIGER HF backscatter radars -
Yun Zou and Nozomu Nishitani ( STEL, Nagoya University ) Yun Zou and Nozomu Nishitani ( STEL, Nagoya University ) Study of mid-latitude ionospheric convection.

Yun Zou and Nozomu Nishitani ( STEL, Nagoya University ) Yun Zou and Nozomu Nishitani ( STEL, Nagoya University ) Study of mid-latitude ionospheric convection.
Virginia Tech1 Overview of Changes and Developments in the SuperDARN Upper Atmosphere Facility Raymond A. Greenwald, J. Michael Ruohoniemi, Joseph.

Virginia Tech1 Overview of Changes and Developments in the SuperDARN Upper Atmosphere Facility Raymond A. Greenwald, J. Michael Ruohoniemi, Joseph.
Electron Acceleration in the Van Allen Radiation Belts by Fast Magnetosonic Waves Richard B. Horne 1 R. M. Thorne 2, S. A. Glauert 1, N. P. Meredith 1.

Electron Acceleration in the Van Allen Radiation Belts by Fast Magnetosonic Waves Richard B. Horne 1 R. M. Thorne 2, S. A. Glauert 1, N. P. Meredith 1.
UARS Facilities Workshop: The SuperDARN Upper Atmosphere Facility J.M. Ruohoniemi, R.A. Greenwald, and J.B.H. Baker The Bradley Department of Computer.

UARS Facilities Workshop: The SuperDARN Upper Atmosphere Facility J.M. Ruohoniemi, R.A. Greenwald, and J.B.H. Baker The Bradley Department of Computer.
REPW-07 Brian Fraser Centre for Space Physics, University of Newcastle, Callaghan, NSW, Australia With contributions from: Jerry Goldstein, Tom Immel,

REPW-07 Brian Fraser Centre for Space Physics, University of Newcastle, Callaghan, NSW, Australia With contributions from: Jerry Goldstein, Tom Immel,
SAPS intensification during substorm recovery: A multi-instrument case study Roman A. Makarevich University of Alaska Fairbanks, USA A. C. Kellerman, J.

SAPS intensification during substorm recovery: A multi-instrument case study Roman A. Makarevich University of Alaska Fairbanks, USA A. C. Kellerman, J.
Extended observations of decameter scatter associated with the mid-latitude ionospheric trough E. R. Talaat 1, E. S. Miller 1, R. J. Barnes 1, J. M. Ruohoniemi.

Extended observations of decameter scatter associated with the mid-latitude ionospheric trough E. R. Talaat 1, E. S. Miller 1, R. J. Barnes 1, J. M. Ruohoniemi.
Storm-time total electron content and its response to penetration electric fields over South America P. M. de Siqueira, E. R. de Paula, M. T. A. H. Muella,

Storm-time total electron content and its response to penetration electric fields over South America P. M. de Siqueira, E. R. de Paula, M. T. A. H. Muella,
VT SuperDARN Group2011 SuperDARN WorkshopJoseph Baker Testing the Equipotential Magnetic Field Line Assumption Using Interhemispheric.

VT SuperDARN Group2011 SuperDARN WorkshopJoseph Baker Testing the Equipotential Magnetic Field Line Assumption Using Interhemispheric.
PHYSICS AND ENGINEERING PHYSICS Mohsen Ghezelbash, H. Liu, A.V. Koustov and D. André F-region echo occurrence in the polar cap: A comparison of PolarDARN.

PHYSICS AND ENGINEERING PHYSICS Mohsen Ghezelbash, H. Liu, A.V. Koustov and D. André F-region echo occurrence in the polar cap: A comparison of PolarDARN.
The North East CIDR Array (NECA): A Chain of Ionospheric Tomography Receivers for Studying the Equatorward Edge of the Auroral Oval and the Mid-latitude.

The North East CIDR Array (NECA): A Chain of Ionospheric Tomography Receivers for Studying the Equatorward Edge of the Auroral Oval and the Mid-latitude.
Occurrence and properties of substorms associated with pseudobreakups Anita Kullen Space & Plasma Physics, EES.

Occurrence and properties of substorms associated with pseudobreakups Anita Kullen Space & Plasma Physics, EES.
Peter Boakes 1, Steve Milan 2, Adrian Grocott 2, Mervyn Freeman 3, Gareth Chisham 3, Gary Abel 3, Benoit Hubert 4, Victor Sergeev 5 Rumi Nakamura 1, Wolfgang.

Peter Boakes 1, Steve Milan 2, Adrian Grocott 2, Mervyn Freeman 3, Gareth Chisham 3, Gary Abel 3, Benoit Hubert 4, Victor Sergeev 5 Rumi Nakamura 1, Wolfgang.
SuperDARN Workshop May 30 – June 3 2011 Magnetopause reconnection rate and cold plasma density: a study using SuperDARN Mark Lester 1, Adrian Grocott 1,2,

SuperDARN Workshop May 30 – June Magnetopause reconnection rate and cold plasma density: a study using SuperDARN Mark Lester 1, Adrian Grocott 1,2,
Figure 4: Overview of the geometry of the Rankin Inlet and Inuvik radar in MLT coordinates on Aug 08 th 2010. Merged vectors are shown in black. AMPERE.

Figure 4: Overview of the geometry of the Rankin Inlet and Inuvik radar in MLT coordinates on Aug 08 th Merged vectors are shown in black. AMPERE.
PLASMA TRANSPORT ALONG DISCRETE AURORAL ARCS A.Kullen 1, T. Johansson 2, S. Buchert 1, and S. Figueiredo 2 1 Swedish Institute of Space Physics, Uppsala.

PLASMA TRANSPORT ALONG DISCRETE AURORAL ARCS A.Kullen 1, T. Johansson 2, S. Buchert 1, and S. Figueiredo 2 1 Swedish Institute of Space Physics, Uppsala.
AJ Ribeiro FittingSuperDARN 2011 A comparison of ACF fitting methods A.J. Ribeiro (1), P.V. Ponomarenko (2), J. M. Ruohoniemi (1), R.A. Greenwald.

AJ Ribeiro FittingSuperDARN 2011 A comparison of ACF fitting methods A.J. Ribeiro (1), P.V. Ponomarenko (2), J. M. Ruohoniemi (1), R.A. Greenwald.

Similar presentations

Ads by Google