# Finite Hydrogenic molecular chain H$_3$ and ion H$_2^-$ exist in a   strong magnetic field

**Authors:** D.J. Nader, J.C. L\'opez Vieyra, A.V. Turbiner

arXiv: 1903.06533 · 2019-07-17

## TL;DR

This study demonstrates that the hydrogenic chains H₃ and H₂⁻ can exist and become stable in strong magnetic fields, with specific states becoming stable above certain magnetic field thresholds, using variational calculations.

## Contribution

The paper provides the first variational analysis of H₃ and H₂⁻ chains in magnetic fields up to 10¹³ G, establishing their existence and stability thresholds.

## Key findings

- H₃ and H₂⁻ exist as metastable states at B > 10¹¹ G.
- H₃ stabilizes at B ≥ 1.9×10¹¹ G.
- H₂⁻ stabilizes at B ≥ 2.7×10¹¹ G.

## Abstract

The existence and stability of the linear hydrogenic chain H$_3$ and H${}_2^-$ in a strong magnetic field is established. Variational calculations for H$_3$ and H${}_2^-$ are carried out in magnetic fields in the range $10^{11}\leq B \leq 10^{13}\,$G with 17-parametric (13-parametric for H${}_2^-$), physically adequate trial function. Protons are assumed infinitely massive, fixed along the magnetic line. States with total spin projection $S_z=-3/2$ and magnetic quantum numbers $M=-3,-4,-5$ are studied. It is shown that for both H$_3$ and H${}_2^-$ the lowest energy state corresponds to $M=-3$ in the whole range of magnetic fields studied. As for a magnetic field $B \gtrsim 10^{11}\,$G both H$_3$ and H${}_2^-$ exist as metastable states, becoming stable for $B \geq 1.9 \times 10^{11}\,$G and for $B \geq 2.7 \times 10^{11}\,$G, respectively. The excited states $^4(-4)^+$, $^4(-5)^+$ of ${\rm H}_3$ and H${}_2^-$ appear at magnetic fields $B > 7 \times 10^{11}$ and $10^{12}$\,G, respectively.

## Full text

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## Figures

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## References

17 references — full list in the complete paper: https://tomesphere.com/paper/1903.06533/full.md

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Source: https://tomesphere.com/paper/1903.06533