The　intense　2.9　µm　MIR　(mid-infrared)　luminescence　corresponding　to　the　Dy3+:　6H13/2→6H15/2　transition　was　achieved　for　the　first　time　in　Dy3+/Yb3+　ions　co-doped　SrF2　crystals.　2　at%　Dy3+:　SrF22　at%　Dy3+/5　at%　Yb3+:　SrF2,　and　5　at%　Yb3+:　SrF2　crystals　were　grown　by　Bridgman　method.　The　influence　of　Yb3+　on　its　spectral　properties　and　energy　transfer　mechanisms　has　been　studied.　In　comparison　to　Dy3+　doped　SrF2　crystals,　Dy3+/Yb3+　co-doped　crystals　exhibit　not　only　intense　2.9　µm　emission　but　also　longer　high　laser　energy　level　lifetimes,　favoring　2.9　µm　population　inversion　and　lasing　behavior.　Furthermore,　the　ET　efficiency　from　Yb3+　to　Dy3+　in　Dy3+/Yb3+　co-doped　crystals　is　found　to　be　as　high　as　95.34%,　indicating　that　the　ET　from　Yb3+　is　efficient.　The　results　show　that　incorporating　Yb3+　into　Dy3+:　SrF2　crystals　improves　the　ability　to　achieve　2.9　µm　lasing　action,　which　could　be　used　as　a　potential　gain　media　for　laser　diode-pumped　MIR　lasers.　©　2022　Elsevier　B.V.