The　direct　integrating　of　GaAs　and　diamond　is　achieved　at　room　temperature　via　a　surface　activated　bonding　method.　An　ultrathin　crystal　defect　layer　composed　of　GaAs　and　diamond　was　formed　at　the　bonding　interface.　The　thickness　of　the　GaAs　and　diamond　crystal　defect　layers　was　determined　to　be　0.4　and　1.6　nm,　respectively.　After　annealing　at　400　°C,　no　changes　were　observed　in　the　thickness　of　the　crystal　defect　layer　and　the　interfacial　structure.　The　thermal　characterization　of　the　transmission　line　model　(TLM)　patterns　formed　on　the　GaAs　layer　bonded　to　diamond　and　sapphire　substrates　is　demonstrated.　The　thermal　resistance　of　the　GaAs　TLM　patterns　formed　on　the　diamond　and　sapphire　substrates　was　determined　to　be　6　and　34.9　K/W,　respectively.　The　GaAs　TLM　patterns　formed　on　the　diamond　showed　an　excellent　heat　dissipation　property　due　to　the　high　thermal　conductivity　of　diamond.　©　2020　Elsevier　B.V.