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NSR database version of April 11, 2024.

Search: Author = M.Ahmadi

Found 4 matches.

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2020AH04      Phys.Rev. C 102, 044001 (2020)

M.Ahmadi, M.R.Hadizadeh, M.Radin, S.Bayegan

Novel regularization scheme for nucleon-nucleon lattice simulations with effective field theory

NUCLEAR STRUCTURE 2H; calculated binding energy, asymptotic normalization coefficient, low-energy constants (LECs) by solving the lattice form of the Lippmann-Schwinger equation with Lanczos technique; extracted S-wave effective range expansion (ERE) parameters; deduced impact of different powers of the regulator on the extracted ERE parameters as function of lattice spacing. Nuclear lattice effective field theory (NLEFT) for the bound state of two-nucleon systems. Comparison of predicted observables with experimental data.

doi: 10.1103/PhysRevC.102.044001
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2018SO12      Appl.Radiat.Isot. 139, 195 (2018)

B.Soleimani, M.A.Hosseini, M.Rezvanifard, M.Ahmadi, J.Ebadati

Feasibility of 153Sm production using MNSR research reactor through a multi-stage approach

NUCLEAR REACTIONS Sm(n, X)153Sm, E thermal; measured reaction products, Eγ, Iγ; deduced yields. Comparison with MCNP calculations.

doi: 10.1016/j.apradiso.2018.04.026
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2017AH01      Nature(London) 541, 506 (2017)

M.Ahmadi, B.X.R.Alves, C.J.Baker, W.Bertsche, E.Butler, A.Capra, C.Carruth, C.L.Cesar, M.Charlton, S.Cohen, R.Collister, S.Eriksson, A.Evans, N.Evetts, J.Fajans, T.Friesen, M.C.Fujiwara, D.R.Gill, A.Gutierrez, J.S.Hangst, W.N.Hardy, M.E.Hayden, C.A.Isaac, A.Ishida, M.A.Johnson, S.A.Jones, S.Jonsell, L.Kurchaninov, N.Madsen, M.Mathers, D.Maxwell, J.T.K.McKenna, S.Menary, J.M.Michan, T.Momose, J.J.Munich, P.Nolan, K.Olchanski, A.Olin, P.Pusa, C.O.Rasmussen, F.Robicheaux, R.L.Sacramento, M.Sameed, E.Sarid, D.M.Silveira, S.Stracka, G.Stutter, C.So, T.D.Tharp, J.E.Thompson, R.I.Thompson, D.P.van der Werf, J.S.Wurtele

Observation of the 1S-2S transition in trapped antihydrogen

ATOMIC PHYSICS H; measured de-excitations, X-rays; deduced 1S-2S transition energy. Comparison with theoretical calculations.

doi: 10.1038/nature21040
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2017AH05      Nature(London) 548, 66 (2017)

M.Ahmadi, B.X.R.Alves, C.J.Baker, W.Bertsche, E.Butler, A.Capra, C.Carruth, C.L.Cesar, M.Charlton, S.Cohen, R.Collister, S.Eriksson, A.Evans, N.Evetts, J.Fajans, T.Friesen, M.C.Fujiwara, D.R.Gill, A.Gutierrez, J.S.Hangst, W.N.Hardy, M.E.Hayden, C.A.Isaac, A.Ishida, M.A.Johnson, S.A.Jones, S.Jonsell, L.Kurchaninov, N.Madsen, M.Mathers, D.Maxwell, J.T.K.McKenna, S.Menary, J.M.Michan, T.Momose, J.J.Munich, P.Nolan, K.Olchanski, A.Olin, P.Pusa, C.O.Rasmussen, F.Robicheaux, R.L.Sacramento, M.Sameed, E.Sarid, D.M.Silveira, S.Stracka, G.Stutter, C.So, T.D.Tharp, J.E.Thompson, R.I.Thompson, D.P.van der Werf, J.S.Wurtele

Observation of the hyperfine spectrum of antihydrogen

ATOMIC PHYSICS H; measured electromagnetic interactions; deduced hyperfine spectrum of antihydrogen, antihydrogen annihilation events.

doi: 10.1038/nature23446
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