Collision strengths for FIR and UV transtions in PIII and the phosphorus abundance

Abstract

Phosphorus abundance is crucial for DNA-based extraterrestrial life in exoplanets. Atomic data for observed spectral lines of P-ions are needed for its accurate determination. We present the first calculations for collision strengths for the forbidden PIII fine structure transition 3s23p (2Po1/2-3/2) within the ground state at 17.9 μm, as well as allowed UV transitions in the 3s23p (2Po1/2,3/2) → 3s3p2 (2D3/2,5/2, 2S1/2, 2P1/2,3/2) multiplets between 915-1345 . Collision strengths are computed using the Breit-Pauli R-Matrix method including the first 18 levels, and they exhibit extensive auto-ionizing resonance structures. In particular, the Maxwellian averaged effective collision strength for the FIR 17.9 μm transition shows a factor 3 temperature variation broadly peaking at typical nebular temperatures. Its theoretical emissivity with solar phosphorus abundance is computed relative to Hβ and found to be similar to observed intensties from planetary nebulae; the abundances derived in earlier works are 3-5 times sub-solar. The results pertain to the reported paucity of phosphorus from preferred production sites in supernovae, and abundances in planetary nebulae and supernova remnants.