Hypocycloid-core　Kagome　hollow-core　photonic　crystal　fiber(HK-HC-PCF)offers　wider　transmission　bandwith,higher　damage　threshold　and　lower　optical　attenuation　at　some　wavelengths　compared　to　the　photonic　bandgap　guiding　photonic　crystal　fiber(PBG-HC-PCF).It　has　important　applications　in　the　fields　of　nonlinear　frequency　conversion,high　power　pulse　compression,gas　liquid　detection　and　cell　biological　molecules　trace　detection.However,the　fiber　fabrication　of　this　type　of　fiber　is　complicated　due　to　its　special　hypocycloid-core-shape　Kagome　structure.To　date,only　a　few　research　groups　can　fabricate　this　fiber.Inthis　paper,using　the　conventional　stack-and-draw　technique,we　experimentally　fabricated　a　seven-cell　two-ring　hypocycloid-core　Kagome　HC-PCF(shown　in　picture)by　carefully　controlling　the　drawing　temperature,drawing　speed,the　relative　pressure　between　the　core　and　cladding　and　other　parameters　during　the　fiber　fabrication.The　fabricated　fiber　has　a　diameter　of　175　μm,a　core　size　of　40　μm,a　pitch　of　20　μm　and　exhibits　a　single　mode　operation.The　transmission　spectrum　spans　from　900　nm　to　＞1700　nm(limit　of　the　optical　spectrum　analyser(OSA))measured　by　using　a　white　light　source　and　an　OSA.The　measured　optical　attenuation　exhibit　a　value　of　300　dB/km　at　a　spectral　range　of　1100—1700　nm　by　a　cut-back　from　25　m　long　fiber　to　5　m.The　successfully　drawing　of　HK-HC-PCF　with　low　optical　attenuation　and　wide　transmission　bandwith　will　help　development　in　many　research　fields　such　as　high　power　leaser,optical　fiber　sensing,nonlinear　optics　and　bio　photonics　in　our　country.