Kaiyou Chen scite author profile

Spinning superfluid neutrons in the core of a neutron star interact strongly with co-existing superconducting protons. One consequence is that the outward(inward) motion of core superfluid neutron vortices during spindown(up) of a neutron star may alter the core's magnetic field. Such core field changes are expected to result in movements of the stellar crust and changes in the star's surface magnetic field which reflect those in the core below. Observed magnitudes and evolution of the spin-down indices of canonical pulsars are understood as a consequence of such surface field changes. If the growing crustal strains caused by the changing core magnetic field configuration in canonical spinning-down pulsars are relaxed by large scale crust-cracking events, special properties are predicted for the resulting changes in spin-period. These agree with various glitch observations, including glitch activity, permanent shifts in spin-down rates after glitches in young pulsars, the intervals between glitches, families of glitches with different magnitudes in the same pulsar, the sharp drop in glitch intervals and magnitudes as pulsar spin-periods approach 0.7s, and the general absence of glitching beyond this period.

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Pulsar death lines and death valley

Chen¹,

Ruderman²

1993

ApJ

268

260

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Kinematic evidence for a relativistic Keplerian disk - ARP 102B

Chen

Halpern

Filippenko

1989

ApJ

246

182

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Structure of line-emitting accretion disks in active galactic nuclei - ARP 102B

Chen¹,

Halpern²

1989

ApJ

240

182

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C–O bond hydrogenolysis of cyclic ethers with OH groups over rhenium-modified supported iridium catalysts

Chen

Mori

Watanabe

et al. 2012

Journal of Catalysis

200

154

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Kaiyou Chen

Neutron Star Magnetic Field Evolution, Crust Movement, and Glitches

Pulsar death lines and death valley

Kinematic evidence for a relativistic Keplerian disk - ARP 102B

Structure of line-emitting accretion disks in active galactic nuclei - ARP 102B

C–O bond hydrogenolysis of cyclic ethers with OH groups over rhenium-modified supported iridium catalysts

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