Gilashin gani na Sic 6SP 10x10x10mmt 4H-SEMI HPSI Girman da aka keɓance

Takaitaccen Bayani:

Ruwan tabarau na SiC yana wakiltar wani abu mai inganci wanda aka gina shi da kayan silicon carbide (SiC), wanda ke da girma da yanayin ƙasa da za a iya gyarawa gaba ɗaya. Yin amfani da manyan halayen gani na SiC - gami da tagogi masu faɗi, babban ma'aunin haske, da kuma ƙarfin ma'aunin gani mara layi - waɗannan ruwan tabarau suna samun aikace-aikace masu yawa a cikin photonics, tsarin bayanai na kwantum, da kuma haɗakar photonics.
ZMSH tana samar da ruwan tabarau na SiC mai inganci (ruwan tabarau na silicon carbide) tare da girma dabam dabam da geometric da za a iya gyarawa don biyan buƙatun tsarin gani daban-daban. An ƙera waɗannan ruwan tabarau daga kayan silicon carbide masu tsabta, suna nuna kwanciyar hankali na zafi, ƙarfin injiniya, da aikin gani, wanda hakan ya sa suka dace da aikace-aikacen ci gaba ciki har da laser mai ƙarfi, tsarin sararin samaniya, da kuma infrared optics.
Saboda ƙarfin juriyar zafin jiki mai yawa, taurin radiation, da kuma ƙarfin injiniya mai ban mamaki, ana amfani da ruwan tabarau na SiC sosai a cikin tsarin sararin samaniya, fasahar LiDAR, da tsarin hasken ultraviolet. Haɗinsu na musamman na kayan abu yana ba da damar aiki mai inganci a cikin yanayi mai tsauri yayin da yake riƙe da ingantaccen aikin gani.

Aika mana imel

Siffofi

Muhimman Halaye

Sinadarin sinadarai	Al2O3
Tauri	Motoci 9
Yanayin gani	Uniaxial
Ma'aunin haske	1.762-1.770
Birefringence	0.008-0.010
Watsawa	Ƙasa, 0.018
Haske	Vitreous
Pleochroism	Matsakaici zuwa Ƙarfi
diamita	0.4mm-30mm
Juriyar diamita	0.004mm-0.05mm
tsawon	2mm-150mm
haƙurin tsayi	0.03mm-0.25mm
Ingancin saman	40/20
Zagayewar saman	RZ0.05
Siffa ta musamman	ƙarshen biyu a kwance, ƙarshen ɗaya a kwance, ƙarshen duka a kwance, fil na sirdi da siffofi na musamman

Mahimman Sifofi

1. Babban Fihirisar Haske & Tagar Watsawa Mai Faɗi: Gilashin gani na SiC suna nuna kyakkyawan aikin gani tare da fihirisar haske na kimanin 2.6-2.7 a fadin tsarin aikinsu. Wannan faffadan tagar watsawa (600-1850 nm) ya ƙunshi yankuna masu gani da kusa da infrared, wanda hakan ya sa su zama masu mahimmanci musamman ga tsarin daukar hoto mai yawa da aikace-aikacen gani mai faɗi. Ƙananan ma'aunin sha na kayan a cikin waɗannan jeri yana tabbatar da ƙarancin raguwar sigina, koda a cikin aikace-aikacen laser mai ƙarfi.

2. Halayen gani na Musamman marasa layi: Tsarin kristal na silicon carbide na musamman yana ba shi ma'aunin gani na ban mamaki marasa layi (χ(2) ≈ 15 pm/V, χ(3) ≈ 10-20 m2/V2), wanda ke ba da damar ingantaccen tsarin canza mita. Ana amfani da waɗannan kaddarorin sosai a aikace-aikacen zamani kamar oscillators na gani, tsarin laser mai sauri, da na'urorin sarrafa siginar gani. Babban matakin lalacewa na kayan (>5 GW/cm2) yana ƙara haɓaka dacewarsa don aikace-aikacen mai ƙarfi.

3. Daidaiton Injini & Zafin Jiki: Tare da tsarin roba mai kusantowa 400 GPa da kuma ƙarfin jure zafi fiye da 300 W/m·K, sassan gani na SiC suna kiyaye kwanciyar hankali na musamman a ƙarƙashin matsin lamba na inji da zagayowar zafi. Matsakaicin ƙarancin yawan faɗaɗa zafi (4.0×10-6/K) yana tabbatar da ƙarancin canjin mai da hankali tare da bambancin zafin jiki, babban fa'ida ga tsarin gani na daidaitacce da ke aiki a cikin yanayin zafi mai canzawa kamar aikace-aikacen sararin samaniya ko kayan aikin sarrafa laser na masana'antu.

4. Sifofin Quantum: Cibiyoyin launi na silicon (VSi) da divacancy (VSiVC) a cikin nau'ikan polytypes na 4H-SiC da 6H-SiC suna nuna yanayin juyawa mai iya magancewa tare da lokutan haɗin kai mai tsawo a zafin ɗaki. Ana haɗa waɗannan masu fitar da quantum cikin hanyoyin sadarwa na quantum masu scalable kuma suna da matuƙar alƙawarin haɓaka na'urori masu auna quantum da na'urorin ƙwaƙwalwar quantum a cikin tsarin ƙirar quantum na photonic.

5. Dacewa da CMOS: Dacewa da SiC tare da daidaitattun hanyoyin ƙera semiconductor yana ba da damar haɗa kai tsaye da dandamalin silicon photonics. Wannan yana ba da damar ƙirƙirar tsarin photonic-electronic masu haɗaka waɗanda ke haɗa fa'idodin gani na SiC tare da aikin lantarki na silicon, yana buɗe sabbin damammaki don ƙirar tsarin-kan-guntu a cikin kwamfutocin gani da aikace-aikacen ji.

Babban Aikace-aikace

1. Da'irori Masu Haɗaka na Photonic (PICS): A cikin PICs na ƙarni na gaba, ruwan tabarau na SiC suna ba da damar haɗakarwa da aiki mara misaltuwa. Suna da mahimmanci musamman ga haɗin kai na terabit a cikin cibiyoyin bayanai, inda haɗinsu na babban ma'aunin refractive da ƙarancin asara yana ba da damar radii mai lanƙwasa mai ƙarfi ba tare da raguwar sigina mai mahimmanci ba. Ci gaban da aka samu kwanan nan ya nuna amfani da su a cikin da'irori na neuromorphic photonic don aikace-aikacen basirar wucin gadi, inda kaddarorin gani marasa layi ke ba da damar aiwatar da duk hanyoyin sadarwa na jijiyoyi na gani.

2. Bayanai da Kwamfuta: Bayan aikace-aikacen cibiyar launi, ana amfani da ruwan tabarau na SiC a cikin tsarin sadarwa na kwantum don ikonsu na kiyaye yanayin polarization da kuma dacewarsu da tushen photon guda ɗaya. Ana amfani da babban matakin rashin layi na kayan don hanyoyin musayar mitar kwantum, waɗanda ke da mahimmanci don haɗa tsarin kwantum daban-daban waɗanda ke aiki a tsayi daban-daban.

3. Sararin Samaniya & Tsaro: Taurin hasken SiC (wanda ke jure allurai sama da 1 MGy) ya sa ya zama dole ga tsarin gani na sararin samaniya. Sabbin abubuwan da aka fara amfani da su sun haɗa da na'urorin bin diddigin taurari don kewaya tauraron dan adam da tashoshin sadarwa na gani don hanyoyin haɗin tauraron dan adam. A cikin aikace-aikacen tsaro, ruwan tabarau na SiC suna ba da damar sabbin tsararraki na tsarin laser mai ƙarfi da ƙarfi don aikace-aikacen makamashi da aka tsara da kuma tsarin LiDAR na ci gaba tare da ingantaccen ƙudurin kewayon.

4. Tsarin Haske na UV: Aikin SiC a cikin bakan UV (musamman ƙasa da 300 nm) tare da juriyarsa ga tasirin hasken rana ya sa ya zama kayan da aka fi so don tsarin lithography na UV, kayan aikin sa ido na ozone, da kayan aikin lura da taurari. Babban ƙarfin watsa zafi na kayan yana da amfani musamman ga aikace-aikacen UV mai ƙarfi inda tasirin ruwan tabarau na zafi zai lalata na'urorin gani na gargajiya.

5. Na'urorin Photonic Masu Haɗaka: Bayan aikace-aikacen jagorar wave na gargajiya, SiC yana ba da damar sabbin nau'ikan na'urorin photonic masu haɗaka ciki har da masu raba haske bisa ga tasirin magneto-optic, ƙananan microresonators na Q masu ƙarfi don samar da mitar tsefe, da kuma masu daidaita wutar lantarki tare da bandwidth fiye da 100 GHz. Waɗannan ci gaba suna haifar da sabbin abubuwa a cikin sarrafa siginar gani da tsarin microwave photonics.

Sabis na XKH

Ana amfani da kayayyakin XKH sosai a fannoni na fasaha kamar nazarin spectroscopy, tsarin laser, na'urorin microscopes, da ilmin taurari, wanda hakan ke inganta aiki da amincin tsarin gani yadda ya kamata. Bugu da ƙari, XKH tana ba da cikakken tallafin ƙira, ayyukan injiniya, da kuma saurin samfuri don tabbatar da cewa abokan ciniki za su iya tabbatar da ingancin samfuransu cikin sauri da kuma samar da su da yawa.

Za ku amfana daga zaɓin prisms ɗinmu na SiC, idan kun yi amfani da waɗannan:

1. Mafi Kyawun Aiki: Kayan SiC suna ba da ƙarfi da juriya ga zafi, suna tabbatar da aiki mai dorewa koda a cikin mawuyacin yanayi.
2. Ayyukan da aka keɓance: Muna ba da cikakken tallafi daga ƙira zuwa samarwa bisa ga buƙatun abokin ciniki.
3. Isar da Inganci: Tare da ci gaba da tsare-tsare da ƙwarewa mai yawa, za mu iya amsa buƙatun abokin ciniki cikin sauri da kuma isar da su akan lokaci.