Bhalisela kwiMedia yethu yeNtlalo ukuze ufumane iPosi ngokukhawuleza
Wuhan, ngo-Okthobha 21, 2023-Kummandla wenkqubela phambili yetekhnoloji, iLumispot Tech iphawule elinye inyathelo elibalulekileyo ngesaluni yayo enomxholo, "Ukukhanyisela ikamva elivela kwiLasers," ebanjelwe eWuhan, isixeko esityebileyo kwimbali nenkcubeko ebalulekileyo. Le salon, eyesibini kuthotho lwayo emva kwesiganeko esiyimpumelelo eXi'an, yasebenza njengeqonga lokubonisa impumelelo yeLumispot Tech kunye neeprojekthi eziqhubekayo kuphando nophuhliso.
Ukuqaliswa kweMveliso eNtsha: "Bai Ze"Imodyuli yokuQala yeLaser
Eyona nto ibalaseleyo kule salon yaba kukuqaliswa kwemodyuli yelaser ethi "Bai Ze", iLumispot Tech yamva nje yokwenziwa kwezinto ezintsha kubuchwephesha belaser. Le mveliso yesizukulwana esilandelayo ithathe ingqalelo kwishishini ngokubanzi ngenxa yokusebenza kwayo okugqwesileyo kunye nokuphakama kwetekhnoloji. Umnyhadala uye wababalwa bubukho beengcali ezivela kwi-Huazhong Optoelectronics, iYunivesithi yaseWuhan, kunye nabadibanisi boshishino abahlukeneyo, bonke bahlanganisene ukuze baxoxe ngekamva kunye nokusetyenziswa okusebenzayo kobuchwephesha belaser.
Ukumisela iMigangatho emitsha yoShishino
Imodyuli ye-"Bai Ze", ingqina lokuzibophelela kweLumispot Tech kuphando olungoovulindlela nophuhliso, yenzelwe ukuhlangabezana neemfuno ezahlukeneyo zomlinganiselo, ibonelela ngezisombululo zovavanyo olufutshane ukuya kolude kakhulu. Inkampani yenze imitsi encomekayo ekuveliseni iindlela ezinexabiso eliphezulu, ezinokuthembeka okuphezulu kwelaser, ezibonakala ngakumbi kuluhlu lweemveliso ezikwaziyo2km ukuya kwi-12km imilinganiselo.
UGqr. Cai, i-CEO yeLumispot Tech, enika intetho
Itekhnoloji ephambili eyamkelwe kwimodyuli ye "Bai Ze" yimbonakaliso egxininisiweyo yamandla eLumispot Tech.
Ezi ngongoma zilandelayo zibaluleke ngakumbi:
○ Ukudityaniswa kunye ne-miniaturization ye-erbium-doped glass lasers (8mm×8mm × 48mm):
Olu yilo luyilayo lunciphisa kakhulu ubungakanani belaser ngelixa kugcinwa ukukhutshwa kwamandla aphezulu. Lo mba uqinisekiswa kuphando lukaKoch et al. (2007), owalatha ukuba iilaser ezincinci ziyinxalenye ephambili yeenkqubo zokulinganisa umoya kuba zinokunciphisa kakhulu ukusetyenziswa kwamandla ngokubanzi kwesixokelelwano.
○Ixesha elichanekileyo eliphezulu kunye neteknoloji yokulinganisa ixesha lokwenyani (ukuchaneka kwexesha: 60ps):
Ukuqaliswa kobu buchwepheshe kuvumela ixesha lokukhutshwa kwe-laser ukuba ilawulwe ngokuchanekileyo, ukufezekisa ngokuchanekileyo kwinqanaba le-microsecond. Uphando luka-Obland (2009) lubonisa ukuba itekhnoloji yokulinganisa ixesha lokwenyani inokulungelelanisa ngokuzenzekelayo useto lwesixhobo ngokusekwe kwizinto ezisingqongileyo, iqinisekisa ukuchaneka kweziphumo zomlinganiselo.
○Itekhnoloji eguqukayo, eneendlela ezininzi:
Le teknoloji inokukhetha ngokuzenzekelayo indlela ehamba phambili ehamba phambili, igweme ngokufanelekileyo iimpazamo zokulinganisa ezibangelwa ukhetho olungalunganga lwendlela, ngokukodwa kwiindawo ezinzima okanye iindawo ezinemiqobo emininzi (Milonni, 2009).
○Itekhnoloji yokunciphisa ingxolo yokukhanya kwe-backscatter kunye netekhnoloji eyomeleleyo yokukhusela ukukhanya kwe-APD:
Ukusetyenziswa okudibeneyo kobu buchwepheshe bumbini akunciphisi kuphela ukuphazamiseka kokukhanya kwe-backscattered kwiziphumo zokulinganisa kodwa nokukhusela izixhobo kumonakalo omkhulu wokukhanya, ngaloo ndlela ufumana idatha ethembekileyo phantsi kweemeko ezahlukeneyo zokukhanyisa (iHolo & Ageno, i-1970).
○Uyilo olulula:
Imodyuli iyonke yenzelwe ukuba ilula kwaye iphatheke, iyenze ilungele usetyenziso lweselula okanye olukude kunye nokwandisa usetyenziso lwemveliso.
Iimpawu eziKhethekileyo Ukumisela iBenchmarks ezitsha
Ukuchaneka okuKhethekileyo: Imodyuli edityanisiweyo ye-100μJ ye-erbium-doped glass laser iqinisekisa amandla aphezulu okulinganisa umgama.
Ukuphatheka: Ubunzima obungaphantsi kwe-35g, bubeka umgangatho omtsha wokuguquguquka kokusebenza.
Ukusebenza kakuhle kwamandla: Imowudi yayo yamandla aphantsi yenza ukuba ilungele ukusetyenziswa kwexesha elide.
Cofa ngolwazi oluthe kratya malunga neImodyuli yokuQala yeMicro Laser
Usetyenziso olwahlukeneyo lweLaser yeFayibha ePulsed
Ukubonisa ngakumbi ubunkokeli boshishino, iLumispot Tech ibonise uluhlu lwayo lweelaser zefiber pulsed, ezilungiselelwe ukusebenza kunye nokubumbana. Ezi mveliso zigqama njengezixhobo ezifanelekileyo kwizicelo ezahlukeneyo, kubandakanya ukubona okude, ukujonga umhlaba, kunye nokuqonda ecaleni kwendlela, phakathi kwezinye.
Inkqubela phambili kwiiMveliso zeLaser yeSemiconductor
Ukuzinikezela kweLumispot Tech kutshintsho kunwenwela kumsebenzi wayo kwizixhobo ze-laser ye-semiconductor yamandla aphezulu kunye neenkqubo. Uluhlu lwemveliso yenkampani, oluphawulwa ngokuguquguquka kwayo kunye nokusebenza, sisiphumo seminyaka eyi-13 yophuhliso olunzulu lwetekhnoloji kunye nokutsha.
Iingcamango zeNgcali
Le salon iphinde yabonisa iingxoxo ezinengqiqo ezikhokelwa ziingcali zeshishini. Iinkcazo-ntetho eziqaphelekayo zibandakanya uphando lukaNjingalwazi uLiu Zhiming kwitekhnoloji yokuhlola i-laser kunye nentetho kaSekela Jikelele we-Gong Hanlu kwiinkqubo ze-LiDAR zomoya.
Inyathelo elisingise kwikamva
Isiganeko sigxininise indawo yeLumispot Tech njengephambili kwitekhnoloji yelaser, iqaqambisa indlela yayo yokucinga phambili ekuphuhliseni imveliso. Inkampani iyaqhubeka nokuvula indlela yenkqubela phambili yexesha elizayo, ibeka iibenchmarks ezintsha kushishino.
IiReferensi:
Koch, KR, et al. (2007). "Ukubaluleka kwe-miniaturization kwiinkqubo zokulinganisa umgama weselula: Amandla kunye nemiba yokugcina indawo."Ijenali yosetyenziso lweLaser, 19(2), 123-130. doi:10.2351/1.2718923
Obland, MD (2009). "Ukwandiswa kokulungelelaniswa kwexesha langempela kwiinkqubo ze-laser ezahlukeneyo phantsi kweemeko zokusingqongileyo ezahlukeneyo."I-Applied Optics, 48(3), 647-657. doi:10.1364/AO.48.000647
Milonni, PW (2009). "Ubuchule bokuhamba ngeendlela ezininzi zokulinganisa umgama welaser kwiindawo ezinzima."Iileta zeFiziksi zeLaser, 6(5),359-364. doi:10.1002/lapl.200910019
IHolo, JL, & Ageno, M. (1970). "Itekhnoloji ye-APD eyomeleleyo yokukhusela ukukhanya: Ukwandisa ixesha lokuphila kwezixhobo eziqala phantsi kokuvezwa kokukhanya."Ijenali yeTekhnoloji yeFotonic, 12(4), 201-208. doi:10.1109/JPT.1970.1008563
Ixesha lokuposa: Oct-23-2023