Your search keyword '"Navin Chandra Joshi"' showing total 7 results

1. Homologous flare–CME events and their metric type II radio burst association

Author

Sachiko Akiyama, Markus J. Aschwanden, Pertti Makela, K. Mahalakshmi, P. K. Manoharan, W. Uddin, Debi Prasad Choudhary, Abhishek K. Srivastava, Nat Gopalswamy, Vidya Charan Dwivedi, R. Jain, Seiji Yashiro, Navin Chandra Joshi, Nariaki Nitta, Ramesh Chandra, and Arun Kumar Awasthi

Subjects

Physics, Atmospheric Science, Aerospace Engineering, Astronomy, Astronomy and Astrophysics, Astrophysics, Light curve, law.invention, On board, Geophysics, Space and Planetary Science, law, Metric (mathematics), Coronal mass ejection, General Earth and Planetary Sciences, Flare

Abstract

Active region NOAA 11158 produced many flares during its disk passage. At least two of these flares can be considered as homologous: the C6.6 flare at 06:51 UT and C9.4 flare at 12:41 UT on February 14, 2011. Both flares occurred at the same location (eastern edge of the active region) and have a similar decay of the GOES soft X-ray light curve. The associated coronal mass ejections (CMEs) were slow (334 and 337 km/s) and of similar apparent widths (43deg and 44deg), but they had different radio signatures. The second event was associated with a metric type II burst while the first one was not. The COR1 coronagraphs on board the STEREO spacecraft clearly show that the second CME propagated into the preceding CME that occurred 50 min before. These observations suggest that CME-CME interaction might be a key process in exciting the type II radio emission by slow CMEs.

Published

2014

2. Solar energetic particle events during the rise phases of solar cycles 23 and 24

Author

Debi Prasad Choudhary, Nat Gopalswamy, P. K. Manoharan, Navin Chandra Joshi, W. Uddin, Rajmal Jain, Vidya Charan Dwivedi, Pertti Makela, Abhishek K. Srivastava, Nariaki Nitta, Ramesh Chandra, S. Yashiro, K. Mahalakshmi, S. Akiyama, Arun Kumar Awasthi, and H. Xie

Subjects

Physics, Atmospheric Science, Sunspot, Solar energetic particles, media_common.quotation_subject, Aerospace Engineering, Astronomy, Astronomy and Astrophysics, Astrophysics, Asymmetry, Intensity (physics), Geophysics, Space and Planetary Science, Coronal mass ejection, General Earth and Planetary Sciences, Particle, media_common

Abstract

We present a comparative study of the properties of coronal mass ejections (CMEs) and flares associated with the solar energetic particle (SEP) events in the rising phases of solar cycles (SC) 23 (1996–1998) (22 events) and 24 (2009–2011) (20 events), which are associated with type II radio bursts. Based on the SEP intensity, we divided the events into three categories, i.e. weak (intensity This result is consistent with the asymmetry found with sunspot area and intense flares.

Published

2013

3. Flux emergence, flux imbalance, magnetic free energy and solar flares

Author

Sanjay Gosain, Nat Gopalswamy, E. Elamathi, Rajmal Jain, Arun Kumar Awasthi, Wahab Uddin, Vidya Charan Dwivedi, S. Yashiro, Debi Prasad Choudhary, K. Mahalakshmi, Abhishek K. Srivastava, Max Norris, Navin Chandra Joshi, Pradeep Kayshap, Ramesh Chandra, and P. K. Manoharan

Subjects

Physics, Atmospheric Science, Sunspot, Solar flare, Astrophysics::High Energy Astrophysical Phenomena, Aerospace Engineering, Flux, Astronomy and Astrophysics, Astrophysics, Magnetic flux, Virial theorem, law.invention, Magnetic field, Geophysics, Space and Planetary Science, law, Physics::Space Physics, Coronal mass ejection, Astrophysics::Solar and Stellar Astrophysics, General Earth and Planetary Sciences, Flare

Abstract

Emergence of complex magnetic flux in the solar active regions lead to several observational effects such as a change in sunspot area and flux embalance in photospheric magnetograms. The flux emergence also results in twisted magnetic field lines that add to free energy content. The magnetic field configuration of these active regions relax to near potential-field configuration after energy release through solar flares and coronal mass ejections. In this paper, we study the relation of flare productivity of active regions with their evolution of magnetic flux emergence, flux imbalance and free energy content. We use the sunspot area and number for flux emergence study as they contain most of the concentrated magnetic flux in the active region. The magnetic flux imbalance and the free energy are estimated using the HMI/SDO magnetograms and Virial theorem method. We find that the active regions that undergo large changes in sunspot area are most flare productive. The active regions become flary when the free energy content exceeds 50% of the total energy. Although, the flary active regions show magnetic flux imbalance, it is hard to predict flare activity based on this parameter alone.

Published

2013

4. Relationship between interplanetary field/plasma parameters with geomagnetic indices and their behavior during intense geomagnetic storms

Author

Kavita Pandey, Seema Pande, Navin Chandra Joshi, Bimal Pande, and Neeraj Singh Bankoti

Subjects

Geomagnetic storm, Physics, Plasma parameters, Solar cycle 23, Astronomy and Astrophysics, Astrophysics, Plasma, Atmospheric sciences, Solar cycle, Earth's magnetic field, Space and Planetary Science, Interplanetary spaceflight, Instrumentation, Solar equator

Abstract

This paper presents a correlative study between the peak values of geomagnetic activity indices (Dst, Kp, ap and AE) and the peak values of various interplanetary field (Bt, Bz, E and σ B ) and plasma (T, D, V, P and β ) parameters along with their various products (BV, BzV and B 2 V) during intense geomagnetic storms (GMSs) for rising, maximum and decay phases as well as for complete solar cycle 23. The study leads to the conclusion that the peak values of different geomagnetic activity indices are in good correlation with Bt, Bz, σ B , V, E, BV, BzV and B 2 V, therefore these parameters are most useful for predicting GMSs and substorms. These parameters are also reliable indicators of the strength of GMSs. We have also presented the lag/lead time analysis between the maximum of Dst and peak values of geomagnetic activity indices, various interplanetary field/plasma parameters for all GMSs. We have found that the average of peak values of geomagnetic activity indices and various field/plasma parameters are larger in decay phase compare to rising and maximum phases of cycle 23. Our analyses show that average values of lag/lead time lie in the ≈−4.00 h interval for Kp, ap and AE indices as well as for Bt, Bz, σ B , E, D and P. For a more meaningful analysis we have also presented the above study for two different groups G1 (CME-driven GMSs) and G2 (CIR-driven GMSs) separately. Correlation coefficients between various interplanetary field/plasma parameters, their various products and geomagnetic activity indices for G1 and G2 groups show different nature. Three GMSs and associated solar sources observed during three different phases of this solar cycle have also been studied and it is found that GMSs are associated with large flares, halo CMEs and their active regions are close to the solar equator.

Published

2011

5. Asymmetric behavior of different solar activity features over solar cycles 20–23

Author

Navin Chandra Joshi, Bimal Pande, Kavita Pandey, Neeraj Singh Bankoti, Wahab Uddin, and Seema Pande

Subjects

Solar minimum, Physics, Sunspot, integumentary system, food and beverages, Solar cycle 23, Astronomy and Astrophysics, Solar cycle 22, Solar maximum, Atmospheric sciences, Solar cycle, Solar cycle 20, Space and Planetary Science, biological sciences, Physics::Space Physics, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Instrumentation, Sun path, Physics::Atmospheric and Oceanic Physics

Abstract

This paper presents the study of normalized north–south asymmetry, cumulative normalized north–south asymmetry and cumulative difference indices of sunspot areas, solar active prominences (at total, low (⩽40°) and high (⩾50°) latitudes) and Hα solar flares from 1964 to 2008 spanning the solar cycles 20–23. Three different statistical methods are used to obtain the asymmetric behavior of different solar activity features. Hemispherical distribution of activity features shows the dominance of activities in northern hemisphere for solar cycle 20 and in southern hemisphere for solar cycles 21–23 excluding solar active prominences at high latitudes. Cumulative difference index of solar activity features in each solar cycle is observed at the maximum of the respective solar cycle suggesting a cyclic behavior of approximately one solar cycle length. Asymmetric behavior of all activity features except solar active prominences at high latitudes hints at the long term periodic trend of eight solar cycles. North–south asymmetries of SAP (H) express the specific behavior of solar activity at high solar latitudes and its behavior in long-time scale is distinctly opposite to those of other activity features. Our results show that in most cases the asymmetry is statistically highly significant meaning thereby that the asymmetries are real features in the N–S distribution of solar activity features.

Published

2011

6. Correlative study of different solar activity features with all India homogeneous rainfall during 1963–2006

Author

Neeraj Singh Bankoti, Kavita Pandey, Navin Chandra Joshi, Bimal Pande, and Seema Pande

Subjects

Physics, Solar flare, Correlation coefficient, Sunspot number, Moving average, Homogeneous, Lag, Statistical parameter, Atmospheric sciences, Solar prominence, Earth-Surface Processes

Abstract

A statistical study of different solar activity features (sunspot number, solar active prominences and Hα solar flares) with all India homogeneous rainfall (RF) is presented using 44 years (1963–2006) data. The correlation coefficient, significance of correlation coefficient and other statistical parameters are computed for the seasonal months of January–February (JF), March–April–May (MAM), June–July–August–September (JJAS), October–November–December (OND) and also annual. Correlation coefficient and its significance of two, four and six point moving average of RF with different solar activity features have also been calculated. A negative correlation is found between annual RF and solar activity features, and for sunspot number and solar flares with two, four and six point moving average of RF whereas moves from negative to positive for solar active prominences. Lag/lead analysis between RF and different solar activity features have also been analyzed and presented.

Published

2011

7. North–south asymmetry of different solar activity features during solar cycle 23

Author

Kavita Pandey, Neeraj Singh Bankoti, Navin Chandra Joshi, Bimal Pande, and Seema Pande

Subjects

Physics, Series (stratigraphy), Sunspot, media_common.quotation_subject, FOS: Physical sciences, Solar cycle 23, Astronomy and Astrophysics, Atmospheric sciences, Asymmetry, Solar prominence, Latitude, law.invention, Astrophysics - Solar and Stellar Astrophysics, Space and Planetary Science, law, Climatology, Instrumentation, Southern Hemisphere, Solar and Stellar Astrophysics (astro-ph.SR), Geology, Flare, media_common

Abstract

A study on North South (NS) asymmetry of different solar activity features (DSAF) such as solar proton events, solar active prominences, H alpha flare index, soft X ray flares, monthly mean sunspot area and monthly mean sunspot number were carried out from 1996 to 2008. It is found in our result that solar cycle 23 is magnetically weak compared to solar cycle 22. Study shows the Southern dominance of DSAF during the time period of study. During the rising phase of the cycle the numbers of DSAF approximately equal on the North and South Hemisphere. However, these activities tend to shift from Northern Hemisphere to Southern Hemisphere in between year 1998 to 1999. The statistical significance of the asymmetry time series using a chi square test of goodness of fit indicates that in most of the cases the asymmetry is highly significant, i.e., the asymmetry is a real feature in the NS distribution of DSAF., Comment: In this manuscript total 19 pages including 7 figures and 3 tables

Published

2010