1.
THE FUTURE OF TIME DOMAIN SWITCHED (TDS) INERTIAL SENSORS AS AN ENABLER FOR NEXT GENERATION MISSIONS
Advances in the Astronautical Sciences, ISSN 0065-3438, 01/2013, Volume 149, pp. 525 - 536
MEMS inertial sensors are on the cusp of reaching performance levels that will provide the transformative capabilities necessary to revolutionize the autonomy,...
Cusps
Cusps
Journal Article
2.
A Numerical study of the Dirichlet and Neumann eigenvalue problem of the Laplacian on cusp domains
Journal of Computational Methods in Sciences and Engineering, ISSN 1472-7978, 01/2013, Volume 13, Issue 5,6, pp. 433 - 437
Consider a planar annulus. A result of Ramm and Shivakumar states that as the inner circle moves toward the outer circle, the principal Dirichlet eigenvalue of...
Cusps
Cusps
Journal Article
Physical Review Letters, ISSN 0031-9007, 08/2018, Volume 121, Issue 9
We study quasiparticle excitations for quantum spin chains with long-range interactions using variational matrix product state techniques. It is confirmed that...
Cusps | Chains | Crossovers
Cusps | Chains | Crossovers
Journal Article
Journal of Geophysical Research: Space Physics, ISSN 2169-9380, 04/2016, Volume 121, Issue 4, pp. 3006 - 3030
The magnetospheric cusps are important sites of the coupling of a magnetosphere with the solar wind. The combination of both ground‐ and space‐based...
Saturn | periodicity | cusp | INTERPLANETARY MAGNETIC-FIELD | CAPS ELECTRON SPECTROMETER | ASTRONOMY & ASTROPHYSICS | SOLAR-WIND | MAGNETOPAUSE | RECONNECTION | MAGNETOSPHERIC CUSPS | PLASMA INJECTION | RADIATION | JOVIAN MAGNETOSPHERE | JUPITER | Cassini mission | Double cusps | Encounters | Terrestrial environments | Magnetosheath | Magnetopause | Spacecraft | Ground-based observation | Orbits | Injection | Ground stations | Periodicities | Magnetosphere | Polar cusps | Coupling | Solar wind | Planetary magnetospheres | Neptune (planet) | Magnetopause reconnection | Planetary rotation | Saturn (planet) | Cusps | Magnetospheres
Saturn | periodicity | cusp | INTERPLANETARY MAGNETIC-FIELD | CAPS ELECTRON SPECTROMETER | ASTRONOMY & ASTROPHYSICS | SOLAR-WIND | MAGNETOPAUSE | RECONNECTION | MAGNETOSPHERIC CUSPS | PLASMA INJECTION | RADIATION | JOVIAN MAGNETOSPHERE | JUPITER | Cassini mission | Double cusps | Encounters | Terrestrial environments | Magnetosheath | Magnetopause | Spacecraft | Ground-based observation | Orbits | Injection | Ground stations | Periodicities | Magnetosphere | Polar cusps | Coupling | Solar wind | Planetary magnetospheres | Neptune (planet) | Magnetopause reconnection | Planetary rotation | Saturn (planet) | Cusps | Magnetospheres
Journal Article
2014, Memoirs of the American Mathematical Society, ISBN 9780821898567, Volume no. 1090., v, 107
Book
Annales Geophysicae, ISSN 0992-7689, 4/2000, Volume 18, Issue 4, pp. 436 - 444
We investigate the dayside auroral dynamics and ionospheric convection during an interval when the interplanetary magnetic field (IMF) had predominantly a...
Magnetospheric physics (auroral phenomena | plasma convection | Extraterrestrial Physics, Space Sciences | Geosciences | Astrophysics | magnetopause, cusp, and boundary layers | Geophysics/Geodesy | Astronomy | Magnetospheric physics (auroral phenomena; magnetopause, cusp, and boundary layers; plasma convection) | CUSP AURORA | GEOSCIENCES, INTERDISCIPLINARY | CURRENTS | MAGNETOSPHERE | RESPONSES | magnetospheric physics (auroral phenomena; magnetopause, cusp, and boundary layers | ASTRONOMY & ASTROPHYSICS | SOLAR-WIND | DYNAMICS | IONOSPHERIC CONVECTION | BOUNDARY | SUPERDARN | METEOROLOGY & ATMOSPHERIC SCIENCES | SOUTHWARD | Magnetic fields | Magnetosphere | Earth Sciences | Sciences of the Universe | Ocean, Atmosphere
Magnetospheric physics (auroral phenomena | plasma convection | Extraterrestrial Physics, Space Sciences | Geosciences | Astrophysics | magnetopause, cusp, and boundary layers | Geophysics/Geodesy | Astronomy | Magnetospheric physics (auroral phenomena; magnetopause, cusp, and boundary layers; plasma convection) | CUSP AURORA | GEOSCIENCES, INTERDISCIPLINARY | CURRENTS | MAGNETOSPHERE | RESPONSES | magnetospheric physics (auroral phenomena; magnetopause, cusp, and boundary layers | ASTRONOMY & ASTROPHYSICS | SOLAR-WIND | DYNAMICS | IONOSPHERIC CONVECTION | BOUNDARY | SUPERDARN | METEOROLOGY & ATMOSPHERIC SCIENCES | SOUTHWARD | Magnetic fields | Magnetosphere | Earth Sciences | Sciences of the Universe | Ocean, Atmosphere
Journal Article
1981, Technical report, Volume no. 81-5., ii, 49 leaves
Book
Journal of Geophysical Research: Space Physics, ISSN 2169-9380, 12/2016, Volume 121, Issue 12, pp. 11,952 - 11,963
The magnetospheric cusp is a region connecting the interplanetary environment to the ionosphere and enabling solar wind particles to reach the ionosphere. We...
Saturn | aurora | cusp | IONOSPHERIC SIGNATURES | INTERPLANETARY MAGNETIC-FIELD | FLUX-TRANSFER EVENTS | CONVECTION | ASTRONOMY & ASTROPHYSICS | CUTLASS | DIRECTION | MAGNETOPAUSE | RECONNECTION | MAGNETOSPHERIC CUSPS | SPACECRAFT | Magnetic fields | Auroras | Ionosphere | Magnetic flux | Cassini mission | Hubble Space Telescope | Noon | Magnetopause | Spacecraft | Space telescopes | Latitude | Magnetospheres | Brightening | Emissions | Interplanetary magnetic fields | Particle physics | Spots | Electron density | Solar wind | Cusps | Imaging | Signatures | Polar cusps | Pulsation
Saturn | aurora | cusp | IONOSPHERIC SIGNATURES | INTERPLANETARY MAGNETIC-FIELD | FLUX-TRANSFER EVENTS | CONVECTION | ASTRONOMY & ASTROPHYSICS | CUTLASS | DIRECTION | MAGNETOPAUSE | RECONNECTION | MAGNETOSPHERIC CUSPS | SPACECRAFT | Magnetic fields | Auroras | Ionosphere | Magnetic flux | Cassini mission | Hubble Space Telescope | Noon | Magnetopause | Spacecraft | Space telescopes | Latitude | Magnetospheres | Brightening | Emissions | Interplanetary magnetic fields | Particle physics | Spots | Electron density | Solar wind | Cusps | Imaging | Signatures | Polar cusps | Pulsation
Journal Article
Forum Mathematicum, ISSN 0933-7741, 05/2019, Volume 31, Issue 3, p. 647
Journal Article
Geophysical Research Letters, ISSN 0094-8276, 03/2014, Volume 41, Issue 5, pp. 1382 - 1388
We report on the first analysis of magnetospheric cusp observations at Saturn by multiple in situ instruments onboard the Cassini spacecraft. Using this we...
cusp | reconnection | Cassini | plasma | dispersion | ROTATION | POLAR CUSP | GEOSCIENCES, MULTIDISCIPLINARY | SOLAR-WIND | MAGNETOPAUSE | DYNAMICS | KILOMETRIC RADIATION | Saturn | Spacecraft | Radiations | Shock | Wind | Cassini mission | Terrestrial environments | Magnetopause | Radiation | Latitude | Dispersions | Magnetosphere | Magnetospheric cusp | Alignment | Saturn kilometric radiation | Energy | Signatures | Solar wind | Planetary magnetospheres | Onboard | Distance | Magnetopause reconnection | Compressing | Instruments | Noon | Trajectories | Magnetospheres | Dispersion | Emissions | Amplification | Stepped | Pitch (inclination) | Cusps | Research Letter
cusp | reconnection | Cassini | plasma | dispersion | ROTATION | POLAR CUSP | GEOSCIENCES, MULTIDISCIPLINARY | SOLAR-WIND | MAGNETOPAUSE | DYNAMICS | KILOMETRIC RADIATION | Saturn | Spacecraft | Radiations | Shock | Wind | Cassini mission | Terrestrial environments | Magnetopause | Radiation | Latitude | Dispersions | Magnetosphere | Magnetospheric cusp | Alignment | Saturn kilometric radiation | Energy | Signatures | Solar wind | Planetary magnetospheres | Onboard | Distance | Magnetopause reconnection | Compressing | Instruments | Noon | Trajectories | Magnetospheres | Dispersion | Emissions | Amplification | Stepped | Pitch (inclination) | Cusps | Research Letter
Journal Article
Marine Geology, ISSN 0025-3227, 11/2019, Volume 417, p. 105988
The present work proposes a morphological evolution model for sandy cuspate beaches, which depends on two parameters, swash excursion ( ) and offshore wave...
Swash excursion | Cusps | Energetic waves | Wave Steepness
Swash excursion | Cusps | Energetic waves | Wave Steepness
Journal Article
Geophysical Research Letters, ISSN 0094-8276, 01/2017, Volume 44, Issue 1, pp. 22 - 29
We present a case study of inverse ion cyclotron damping taking place in the northern terrestrial magnetospheric cusp, exciting waves at the ion cyclotron...
plasma wave generation | cusp | inverse ion cyclotron damping | POLAR CUSP | CLUSTER OBSERVATIONS | OUTFLOW | ELECTRIC-FIELD | MANTLE | PLASMA-WAVES | KELVIN-HELMHOLTZ INSTABILITY | GEOSCIENCES, MULTIDISCIPLINARY | SOLAR-WIND | MAGNETIC-FIELD | HIGH-ALTITUDE CUSP | Plasma | Ions | Ratio analysis | Scientific apparatus & instruments | Damping | Shear | Noise | Terrestrial environments | Magnetosheath | Background noise | Waves | Magnetospheric cusp | Noise (sound) | Case studies | Alignment | Wave generation | Electric fields | Harmonics | Ion cyclotron waves | Cyclotron frequency | Spectra | Velocity | Magnetospheres | Cyclotrons | Frequency | Magnetic fields | Noise prediction | Cusps | Inverse | Density | Atmospheric science | Engineering and Technology | Rymd- och flygteknik | Teknik och teknologier | Aerospace Engineering | Mechanical Engineering | Maskinteknik | Atmosfärsvetenskap
plasma wave generation | cusp | inverse ion cyclotron damping | POLAR CUSP | CLUSTER OBSERVATIONS | OUTFLOW | ELECTRIC-FIELD | MANTLE | PLASMA-WAVES | KELVIN-HELMHOLTZ INSTABILITY | GEOSCIENCES, MULTIDISCIPLINARY | SOLAR-WIND | MAGNETIC-FIELD | HIGH-ALTITUDE CUSP | Plasma | Ions | Ratio analysis | Scientific apparatus & instruments | Damping | Shear | Noise | Terrestrial environments | Magnetosheath | Background noise | Waves | Magnetospheric cusp | Noise (sound) | Case studies | Alignment | Wave generation | Electric fields | Harmonics | Ion cyclotron waves | Cyclotron frequency | Spectra | Velocity | Magnetospheres | Cyclotrons | Frequency | Magnetic fields | Noise prediction | Cusps | Inverse | Density | Atmospheric science | Engineering and Technology | Rymd- och flygteknik | Teknik och teknologier | Aerospace Engineering | Mechanical Engineering | Maskinteknik | Atmosfärsvetenskap
Journal Article
Journal of Geophysical Research: Space Physics, ISSN 2169-9380, 01/2017, Volume 122, Issue 1, pp. 605 - 617
Magnetic reconnection changes the topology of magnetic field lines. This process is most readily observable with in situ instrumentation at the Earth's...
cusp | reconnection location | magnetopause | magnetic reconnection | POLAR CUSP | X-LINE | DAYSIDE MAGNETOPAUSE | INTERPLANETARY | HIGH-LATITUDE MAGNETOPAUSE | SHEAR ANGLE | FIELD CONDITIONS | ASTRONOMY & ASTROPHYSICS | SOLAR-WIND | SHEET BOUNDARY-LAYER | ION-ACCELERATION | Earth | Magnetism | Magnetic fields | Ion beams | Stellar winds | Energy use | Shear | Magnetopause | Instrumentation | Latitude | Magnetosphere | Polar cusps | Interplanetary magnetic fields | Mathematical models | Signatures | Solar wind | Interplanetary magnetic field | Magnetic reconnection | Fluctuations | Instruments | Cut-off | Flux | Topology | Magnetospheres | Dispersion | Switching | Flow | Satellites | Momentum flux | Cusps | Double stars
cusp | reconnection location | magnetopause | magnetic reconnection | POLAR CUSP | X-LINE | DAYSIDE MAGNETOPAUSE | INTERPLANETARY | HIGH-LATITUDE MAGNETOPAUSE | SHEAR ANGLE | FIELD CONDITIONS | ASTRONOMY & ASTROPHYSICS | SOLAR-WIND | SHEET BOUNDARY-LAYER | ION-ACCELERATION | Earth | Magnetism | Magnetic fields | Ion beams | Stellar winds | Energy use | Shear | Magnetopause | Instrumentation | Latitude | Magnetosphere | Polar cusps | Interplanetary magnetic fields | Mathematical models | Signatures | Solar wind | Interplanetary magnetic field | Magnetic reconnection | Fluctuations | Instruments | Cut-off | Flux | Topology | Magnetospheres | Dispersion | Switching | Flow | Satellites | Momentum flux | Cusps | Double stars
Journal Article
Journal of Geophysical Research: Space Physics, ISSN 2169-9380, 05/2018, Volume 123, Issue 5, pp. 3794 - 3805
This paper uses the multiple‐point magnetic measurements from the Cluster mission to investigate the curvature and gradient of the magnetic field as well as...
current density | cusp | magnetic gradient | magnetic curvature | EVENTS | EXTERIOR CUSP | MAGNETOSHEATH | RECONNECTION | MAGNETOSPHERIC CUSPS | POLAR MAGNETOSPHERE | PLASMA | ASTRONOMY & ASTROPHYSICS | BOUNDARY | CLUSTER | HIGH-ALTITUDE CUSP | Interplanetary magnetic field | Field strength | Correlation analysis | Magnetism | Cluster Mission | Magnetic fields | Density | Curvature | Current density | Magnetic measurement | Interplanetary magnetic fields
current density | cusp | magnetic gradient | magnetic curvature | EVENTS | EXTERIOR CUSP | MAGNETOSHEATH | RECONNECTION | MAGNETOSPHERIC CUSPS | POLAR MAGNETOSPHERE | PLASMA | ASTRONOMY & ASTROPHYSICS | BOUNDARY | CLUSTER | HIGH-ALTITUDE CUSP | Interplanetary magnetic field | Field strength | Correlation analysis | Magnetism | Cluster Mission | Magnetic fields | Density | Curvature | Current density | Magnetic measurement | Interplanetary magnetic fields
Journal Article
Journal of Geophysical Research: Space Physics, ISSN 2169-9380, 10/2014, Volume 119, Issue 10, pp. 8087 - 8116
The structure of Mercury's dayside magnetosphere is investigated during three extreme solar wind dynamic pressure events. Two were the result of coronal mass...
cusp | magnetosphere | reconnection | plasma depletion layer | core induction | Mercury | MAGNETOPAUSE OBSERVATIONS | FLUX-TRANSFER EVENTS | POLAR CUSP | 1ST FLYBY | EARTHS MAGNETOPAUSE | INTERPLANETARY MAGNETIC-FIELD | RECONNECTION RATE | ASTRONOMY & ASTROPHYSICS | PLASMA DEPLETION | EXOSPHERE | BOW SHOCKS | Solar physics | Astrophysics | Solar flares | Magnetic fields | Magnetic induction | Shear | Depletion | Coronal mass ejection | Cusps | Filaments | Magnetosheath | Magnetopause | Mercury (planet)
cusp | magnetosphere | reconnection | plasma depletion layer | core induction | Mercury | MAGNETOPAUSE OBSERVATIONS | FLUX-TRANSFER EVENTS | POLAR CUSP | 1ST FLYBY | EARTHS MAGNETOPAUSE | INTERPLANETARY MAGNETIC-FIELD | RECONNECTION RATE | ASTRONOMY & ASTROPHYSICS | PLASMA DEPLETION | EXOSPHERE | BOW SHOCKS | Solar physics | Astrophysics | Solar flares | Magnetic fields | Magnetic induction | Shear | Depletion | Coronal mass ejection | Cusps | Filaments | Magnetosheath | Magnetopause | Mercury (planet)
Journal Article
Journal of Geophysical Research: Space Physics, ISSN 0148-0227, 03/2011, Volume 116, Issue A3, p. n/a
We have analyzed Cluster magnetic field and plasma data during high‐altitude cusp crossing and compared them with high‐resolution MHD simulations. Cluster...
cusp | boundary layers | particle heating | magnetic reconnection | INTERPLANETARY MAGNETIC-FIELD | POLAR CUSP | BOUNDARY-LAYER | EXTERIOR CUSP | ASTRONOMY & ASTROPHYSICS | LOW-LATITUDE RECONNECTION | MAGNETOSPHERIC CUSPS | ENERGETIC IONS | ION-CYCLOTRON WAVES | NORTHWARD IMF | HIGH-ALTITUDE CUSP | Atmospheric sciences | Magnetism
cusp | boundary layers | particle heating | magnetic reconnection | INTERPLANETARY MAGNETIC-FIELD | POLAR CUSP | BOUNDARY-LAYER | EXTERIOR CUSP | ASTRONOMY & ASTROPHYSICS | LOW-LATITUDE RECONNECTION | MAGNETOSPHERIC CUSPS | ENERGETIC IONS | ION-CYCLOTRON WAVES | NORTHWARD IMF | HIGH-ALTITUDE CUSP | Atmospheric sciences | Magnetism
Journal Article