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    • 1. 发明专利
    • EPITAXIAL GROWTH OF SILICON
    • JPS58135633A
    • 1983-08-12
    • JP1767482
    • 1982-02-08
    • HITACHI LTD
    • TAKAHASHI RIYOUKICHIKOZUKA KOUJISAIDA HIROJIKOGIRIMA MASAHIKOKURODA SATOYOSHI
    • H01L21/205C30B25/10
    • PURPOSE:To reduce deposition of silicon to the wall of a reaction tube to the minimum, and to imrpve distribution of film thickness and distribtuion of specific resistance of the deposited film by a method wherein two temperature zones are provided, and epitaxial growth of silicon is performed in the low temperature zone according to unequalizing reaction. CONSTITUTION:The reaction tube 2 is set in an electric resistance furnace 1 having the three zones, and the two temperature zones of the high temperature zone of 1,050 deg.C and the low temperature zone provided with the temperature grade reducing by the ratio 1 deg.C/cm are bestowed to the temperature thereof according to the electric furnace. The numeral 3 shows a jig, silicon wafers are set vertically thereon, and the jig is sent to the prescribed position of the low temperature zone according to a hermetically sealed boat loader 5. SiH2Cl2 is used as silicon source gas, PH3 gas diluted with H2 is used as doping gas, and 100% SiH2Cl2 of 0.5l/min, PH3 of 0.05l/min are supplied to the reaction tube through gas supply piping 6 when epitaxial reaction is to be performed. Moreover, the system is exhausted by a vacuum pump consisting of a Roots pump 8, and a rotary pump 9 through a gas coller 7, and pressure is held at 13Pa.
    • 2. 发明专利
    • Method of doping in decompressed hot wall device
    • 降解热壁装置的方法
    • JPS5919316A
    • 1984-01-31
    • JP12752382
    • 1982-07-23
    • Hitachi Ltd
    • TAKAHASHI RIYOUKICHIKOGIRIMA MASAHIKO
    • H01L21/31H01L21/205
    • H01L21/02532H01L21/02576H01L21/0262
    • PURPOSE:To make uniform the film thickness and the specific resistance of a plurality of substrates by a method wherein doping gas is injected into a reaction tube from the opposite side of the port where a substrate jig will be put in and out. CONSTITUTION:A quartz reaction tube 2 is inserted in a diffusion furnace and a jig 3, whereon a plurality of sets of two substrates are mounted, is set at the inlet of the tube 2. Then, the jig is carried to the high-temperature reaction part in the furnace by a magnetic type automatic loader 5. Reaction gas, as the main stream of gas, is supplied through a flow meter 6 and a piping 7 and, as supplimentary gas, it is supplied through a piping 8 and a nozzle tube 11. Supplementary doping gas PH3 passes through the piping 8, the introduction tube 9 of a quartz nozzle and a manifold 10. At this point, said gas PH3 is branched into four streams, comes out of the nozzle located above the branch tubes, passes through the center of the substrate interval and injected toward the center of the circular substrate.
    • 目的:通过其中将掺杂气体从基板夹具的入口的相对侧注入到反应管中的方法来使多个基板的膜厚度和电阻率均匀化。 构成:在扩散炉中插入石英反应管2,将安装有多组两个基板的夹具3设置在管2的入口处。然后,夹具被运送到高温 通过磁式自动装载机5在炉中的反应部分。作为主要气流的反应气体通过流量计6和管道7供应,并且作为供应气体,通过管道8和喷嘴 管道11.补充掺杂气体PH3通过管道8,石英喷嘴的引入管9和歧管10.此时,所述气体PH3分支成四个流,从位于分支管上方的喷嘴出来, 通过衬底间隔的中心并朝向圆形衬底的中心注入。
    • 10. 发明专利
    • Vacuum hot-wall cvd method
    • 真空高温CVD方法
    • JPS59217325A
    • 1984-12-07
    • JP9068883
    • 1983-05-25
    • Hitachi Ltd
    • TAKAHASHI RIYOUKICHIKOGIRIMA MASAHIKO
    • H01L21/205
    • H01L21/02532H01L21/02576H01L21/0262
    • PURPOSE:To keep substantially constant the amount of gas jetting out of each of nozzle holes and make it feasible to provide a uniform resistivity for a multiplicity of substrates inside the reaction tube by a method wherein a drop in pressure of gas jetting from a doping gas nozzle is made greater and the pressure within a nozzle tube is heightened. CONSTITUTION:A reaction tube 2 is inserted into a general-purpose electric furnace 1 so as to be heated. The reaction is effected inside the reaction tube 2 such that a multiplicity of substrates 4 are vertically disposed on a jig 3. Among reaction gases, SiH2Cl2 as a source gas is introduced into the tube 2 from the main tube inlet thereof through a piping 5. While, a doping gas in accompany with an H2 carrier gas and Ar gas pass through a piping 6 are jetted to every spacing formed between the substrates from the nozzle hole of a doping nozzle 8 which is inserted into the reaction tube 2 from its rear portion. The reaction is carried out under a vacuum of approximately 1 Torr and a growth rate of 0.4mum/min is gained. The gas after the completion of reaction is discharged outside through a gas cooling tube 9 and filter 11 by means of a booster pump 12 and rotary pump 13. On the other hand, the reaction system is measured by a pressure gage 10. With this process, an epitaxial reaction of fifty substrates is performed. In this case, the degree of precision concerning the film thickness shows + or -4% and resisttivity + or -6%.
    • 目的:为了保持从每个喷嘴孔喷出的气体的量基本恒定,并且使得可以通过一种方法为反应管内的多个基板提供均匀的电阻率,其中从掺杂气体喷射的气体的压力降低 喷嘴更大,喷嘴管内的压力提高。 构成:将反应管2插入通用电炉1中以加热。 反应在反应管2内部进行,使得多个基板4垂直设置在夹具3上。在反应气体中,作为源气体的SiH 2 Cl 2通过管道5从主管入口引入到管2中。 同时,伴随着H 2载气和Ar气体的掺杂气体通过管道6被喷射到从其后部分插入到反应管2中的掺杂喷嘴8的喷嘴孔之间形成的每个间隔上 。 反应在约1托的真空下进行,并且获得0.4mum / min的生长速率。 反应结束后的气体通过增压泵12和旋转泵13通过气体冷却管9和过滤器11排出到外部。另一方面,通过压力计10测量反应系统。利用该方法 进行50个基板的外延反应。 在这种情况下,关于膜厚度的精度为+或-4%,电阻率为+或-6%。