03H

³H

Thermal Neutron Capture Evaluated Data

Measurements

1969PR06: ²H(n, γ), E = thermal; measured E_γ; deduced Q.
1975SM02: ²H(n, γ), measured ³H atomic mass.
1977MC05: ²H(n, γ), E = thermal; measured σ(E_γ); deduced upper limit for σ(2γ).
1979WU05: ²H(n, γ), E = thermal; measured σ for double-photon emission, σγ.
1980AL31: ²H(n, γ), E = thermal; measured σ. Ge(Li) spectrometer.
1980ALZH: ²H(n, γ), E = thermal; measured σ. Ge(Li) spectrometer, tof.
1980ALZZ: ²H(n, γ), E = thermal; measured σ. Three-body model, Faddeev calculations.
1982JU01: ²H(n, γ), E = thermal; measured E_γ, I_γ, σ.
1985DO02: ²H(pol. n, γ), E = thermal; analyzed γ asymmetry data.
1986AV04: ²H(pol. n, γ), E = thermal; measured E_γ, I_γ, γ(θ), asymmetry.
1988KO07: ²H(pol. n, γ), E = thermal; measured γ CP; deduced meson exchange current role.
1994KR20: ²H(pol. n, γ), E = thermal, resonance; compiled, reviewed parity violation data, analyses; deduced dominant mechanism.
1999ZHZM, 2000ZHZP: ²H(n, γ), E = thermal; compiled, evaluated prompt γ-ray data.
2002RE13: ²H(n, γ), E = thermal; compiled, analyzed prompt E_γ, I_γ.
2003MOZU: ²H(n, γ), compiled, analyzed capture σ, neutron binding energies.
2008FIZZ: ²H(n, γ), E = thermal; measured cross sections; deduced cross section balance.
2011SL01: ²H(n, γ), E = thermal; compiled, evaluated σ, σ(E_γ), γ decay schemes, levels, J, π using ENDF, DICEBOX.
2016FI04: ²H(n, γ), E = thermal; measured E_γ, I_γ, total radiative neutron capture cross sections.

Measured total cross section for ²H(n, γ)³H

Recommended value:	0.508 ± 0.015 mb	(2006MUZX)
Measured values:	0.492 ± 0.025 mb	(EGAF)
	0.549 ± 0.010 mb	(2011FI11)
	0.508 ± 0.015 mb	(2006MUZX)
	0.519 ± 0.007 mb	(2003MUZZ, 1981MUZQ)
	0.508 ± 0.015 mb	(1982JU01)
	0.476 ± 0.020 mb	(1980AL31)
	0.487 ± 0.024 mb	(1979ALZL)
	0.55 ± 0.01 mb	(1973IS08)
	0.523 ± 0.029 mb	(1969SI1F: M.G. Silk and B.O. Wade, J. Nucl. Energy 23 (1969) 625)
	0.521 ± 0.009 mb	(1968ME26)
	0.57 ± 0.01 mb	(1952KA47)

**Recommended Values**
**taken from the Evaluated Gamma-ray Activation File (EGAF) evaluation**
E_γ (keV)	E_i (keV)	E_f (keV)	σ_γ	I_γ ^a
6250.243 ± 0.003	Capture State	0	(5.19 ± 0.07) x 10 ^-4	100

^a) I_γ: Intensity per 100 neutron captures.

Branching Ratios deduced from
Thermal Neutron Capture γ-decay (EGAF)
E_γ (keV)	E_i (keV)	E_f (keV)	Branching Ratio (%)
6250.243 ± 0.003	Capture State	0	100

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Last modified: 22 June 2021