. "Der (spezifische) Fl\u00E4chenwiderstand beschreibt den elektrischen Widerstand einer elektrisch leitf\u00E4higen Schicht. Je nach Anwendung flie\u00DFt der elektrische Strom nur parallel zur Schicht oder senkrecht durch diese hindurch. Typische F\u00E4lle, bei denen der Fl\u00E4chenwiderstand eine Rolle spielt, sind das elektrische Bauteil Schichtwiderstand, aber auch die Deckelektroden von Fotodioden, Solarzellen, die Metallschichtstrukturen von Leiterplatten und die Leit- bzw. Dotierungszonen integrierter Schaltkreise, sowie die Impedanzmessung an Zellkulturen"@de . . . . "De vierkantsweerstand is een maat voor de karakteristieke elektrische weerstand van een dunne, homogene geleidende laag met constante dikte. Hij wordt veel gebruikt voor het karakteriseren van opgedampte of gezeefdrukte dunne metaal- en halfgeleiderlagen in elektronische toepassingen, zoals ge\u00EFntegreerde schakelingen. Dunne homogene geleidende lagen van constante dikte kunnen als tweedimensionaal worden beschouwd. Bij het elektrisch gedrag ervan speelt de vierkantsweerstand een rol die vergelijkbaar is met die van de soortelijke weerstand in driedimensionale situaties. Daarbij gaat men ervan uit dat de stroom alleen in het vlak van de laag stroomt, en niet loodrecht daarop."@nl . . . . . "\u8584\u819C\u7535\u963B"@zh . . "1539804"^^ . . "De vierkantsweerstand is een maat voor de karakteristieke elektrische weerstand van een dunne, homogene geleidende laag met constante dikte. Hij wordt veel gebruikt voor het karakteriseren van opgedampte of gezeefdrukte dunne metaal- en halfgeleiderlagen in elektronische toepassingen, zoals ge\u00EFntegreerde schakelingen."@nl . "Sheet resistance, is a measure of resistance of thin films that are nominally uniform in thickness. It is commonly used to characterize materials made by semiconductor doping, metal deposition, resistive paste printing, and glass coating. Examples of these processes are: doped semiconductor regions (e.g., silicon or polysilicon), and the resistors that are screen printed onto the substrates of thick-film hybrid microcircuits. The utility of sheet resistance as opposed to resistance or resistivity is that it is directly measured using a four-terminal sensing measurement (also known as a four-point probe measurement) or indirectly by using a non-contact eddy-current-based testing device. Sheet resistance is invariable under scaling of the film contact and therefore can be used to compare the electrical properties of devices that are significantly different in size."@en . . "Resistivit\u00E0 di superficie"@it . . . . "\u30B7\u30FC\u30C8\u62B5\u6297 (\u30B7\u30FC\u30C8\u3066\u3044\u3053\u3046\u3001\u82F1\u8A9E: sheet resistance, sheet resistivity) \u3068\u306F\u3001\u4E00\u69D8\u306E\u539A\u3055\u3092\u6301\u3064\u8584\u3044\u819C\u3084\u30D5\u30A3\u30EB\u30E0\u72B6\u7269\u8CEA\u306E\u96FB\u6C17\u62B5\u6297\u3092\u8868\u3059\u91CF\u306E\u3072\u3068\u3064\u3002\u8868\u9762\u62B5\u6297\u7387\u3001\u9762\u62B5\u6297\u7387\u3068\u3082\u547C\u3070\u308C\u308B\u3002"@ja . . . . . . . . . . . . . . . . . . . "\u30B7\u30FC\u30C8\u62B5\u6297 (\u30B7\u30FC\u30C8\u3066\u3044\u3053\u3046\u3001\u82F1\u8A9E: sheet resistance, sheet resistivity) \u3068\u306F\u3001\u4E00\u69D8\u306E\u539A\u3055\u3092\u6301\u3064\u8584\u3044\u819C\u3084\u30D5\u30A3\u30EB\u30E0\u72B6\u7269\u8CEA\u306E\u96FB\u6C17\u62B5\u6297\u3092\u8868\u3059\u91CF\u306E\u3072\u3068\u3064\u3002\u8868\u9762\u62B5\u6297\u7387\u3001\u9762\u62B5\u6297\u7387\u3068\u3082\u547C\u3070\u308C\u308B\u3002"@ja . "Resist\u00EAncia de folha \u00E9 uma medida de resist\u00EAncia usada para caracterizar finas camadas de semicondutores dopados, normalmente uniformes em toda sua espessura. Resistividade \u00E9 uma fun\u00E7\u00E3o direta da geometria da amostras, e portanto \u00E9 conveniente trabalhar com este par\u00E2metro resist\u00EAncia de folha , expressa em unidades de ohms por quadrado. A resist\u00EAncia de folha, em oposi\u00E7\u00E3o \u00E0 resist\u00EAncia, nos fornece a resistividade de filmes finos formados por camadas difusas, ou formada por filmes epitaxiais em semicondutores, ou ent\u00E3o de camadas policristalinas e de condutores met\u00E1licos. Medidas de resist\u00EAncia de folha s\u00E3o invariantes frente a diminui\u00E7\u00E3o da escala de tamanho dos filmes, e portanto pode ser utilizada para comparar propriedades el\u00E9tricas de dispositivos que s\u00E3o significativamente diferentes em tamanho. Medidas de resist\u00EAncia de folha s\u00E3o muito comuns para caracterizar a uniformidade de recobrimentos condutores ou semicondutores, al\u00E9m de garantia de qualidade de materiais, por exemplo. O desenvolvimento e o r\u00E1pido crescimento da em compara\u00E7\u00E3o a microeletr\u00F4nica tem sido acelerado pelos avan\u00E7os nas t\u00E9cnicas de crescimento de semicondutores. Filmes epitaxiais que s\u00E3o utilizados em dispositivos \u00F3pticos e eletr\u00F4nicos n\u00E3o podem ser caracterizados pela utiliza\u00E7\u00E3o das mesmas t\u00E9cnicas utilizadas para a caracteriza\u00E7\u00E3o dos substratos semicondutores. Assim, foi necess\u00E1rio refinar e desenvolver novos aparatos para que a caracteriza\u00E7\u00E3o el\u00E9trica das amostras pudesse ser determinada."@pt . . . . . . . . . "1093849810"^^ . "\u8584\u819C\u7535\u963B(sheet resistance)\uFF0C\u53C8\u88AB\u79F0\u4E3A\u65B9\u963B\uFF0C\u5177\u6709\u5747\u5300\u539A\u5EA6\u8584\u819C\u7535\u963B\u7684\u91CF\u5EA6\u3002\u901A\u5E38\u88AB\u7528\u4F5C\u8BC4\u4F30\u534A\u5BFC\u4F53\u63BA\u6742\u7684\u7ED3\u679C\u3002\u8FD9\u79CD\u5DE5\u827A\u7684\u4F8B\u5B50\u6709\uFF1A\u534A\u5BFC\u4F53\u7684\u63BA\u6742\u9886\u57DF\uFF08\u6BD4\u5982\u7845\u6216\u8005\u591A\u6676\u7845\uFF09\uFF0C\u4EE5\u53CA\u88AB\u4E1D\u7F51\u5370\u5237\u5230\u57FA\u5E95\u4E0A\u7684\u7535\u963B\u3002\u8584\u819C\u7535\u963B\u7684\u6982\u5FF5\u4E0E\u7535\u963B\u6216\u8005\u7535\u963B\u7387\u76F8\u5BF9\uFF0C\u53EF\u76F4\u63A5\u7528\u56DB\u7AEF\u9EDE\u6E2C\u91CF\u6280\u8853\u6D4B\u91CF\u6CD5\uFF08\u4E5F\u79F0\u4E3A\u56DB\u70B9\u63A2\u9488\u6D4B\u91CF\u6CD5\uFF09\u6216\u8303\u5FB7\u5821\u6CD5\u6765\u6D4B\u91CF\u3002 \u8584\u819C\u7535\u963B\u7528\u6B27\u59C6\u6BCF\u5E73\u65B9\uFF08\uFF09\u6765\u8BA1\u91CF\uFF0C\u53EF\u88AB\u5E94\u7528\u4E8E\u5C06\u8584\u819C\u8003\u8651\u4E3A\u4E00\u4E2A\u4E8C\u7EF4\u5B9E\u4F53\u7684\u4E8C\u7EF4\u7CFB\u7EDF\u3002\u5B83\u4E0E\u4E09\u7EF4\u7CFB\u7EDF\u4E0B\u6240\u7528\u7684\u7535\u963B\u7387\u7684\u6982\u5FF5\u5BF9\u7B49\u3002\u5F53\u4F7F\u7528\u5230\u8584\u819C\u7535\u963B\u4E00\u8BCD\u7684\u65F6\u5019\uFF0C\u7535\u6D41\u5FC5\u987B\u6CBF\u7740\u8584\u819C\u5E73\u9762\u6D41\u52A8\uFF0C\u800C\u975E\u4E0E\u5176\u5782\u76F4\u3002 \u5BF9\u4E8E\u5E38\u89C4\u4E09\u7EF4\u5BFC\u4F53\uFF0C\u7535\u963B\u53EF\u5199\u4E3A \u5176\u4E2D\u4EE3\u8868\u7535\u963B\u7387\uFF0C\u4EE3\u8868\u622A\u9762\u9762\u79EF\u800C\u4EE3\u8868\u957F\u5EA6\u3002\u622A\u9762\u9762\u79EF\u53EF\u88AB\u5206\u89E3\u4E3A\u5BBD\u5EA6\u548C\u8584\u819C\u539A\u5EA6\u3002 \u5F53\u628A\u7535\u963B\u7387\u548C\u539A\u5EA6\u653E\u5230\u4E00\u8D77\u65F6\uFF0C\u7535\u963B\u53EF\u88AB\u8BB0\u4E3A \u5373\u4E3A\u8584\u819C\u7535\u963B\u3002\u56E0\u4E3A\u5B83\u88AB\u4E00\u4E2A\u65E0\u91CF\u7EB2\u91CF\u6240\u4E58\uFF0C\u6240\u4EE5\u5355\u4F4D\u4F9D\u7136\u662F\u6B27\u59C6\u3002\u800C\u6B27\u59C6/\u5E73\u65B9\u8FD9\u4E00\u5355\u4F4D\u88AB\u4F7F\u7528\u662F\u56E0\u4E3A\u5B83\u7ED9\u51FA\u4E86\u4EE5\u6B27\u59C6\u4E3A\u5355\u4F4D\u7684\u4ECE\u4E00\u4E2A\u5E73\u65B9\u533A\u57DF\u6D41\u5411\u76F8\u5BF9\u5E73\u65B9\u533A\u57DF\u7684\u7535\u963B\uFF0C\u65E0\u8BBA\u5E73\u65B9\u533A\u57DF\u7684\u5927\u5C0F\u5982\u4F55\u3002\u5BF9\u4E8E\u6B63\u65B9\u60C5\u5F62\uFF0C\u3002\u56E0\u6B64\uFF0C\u5BF9\u4EFB\u610F\u5E73\u65B9\u5927\u5C0F\uFF0C\u6709\u3002"@zh . . "Resist\u00EAncia de folha \u00E9 uma medida de resist\u00EAncia usada para caracterizar finas camadas de semicondutores dopados, normalmente uniformes em toda sua espessura. Resistividade \u00E9 uma fun\u00E7\u00E3o direta da geometria da amostras, e portanto \u00E9 conveniente trabalhar com este par\u00E2metro resist\u00EAncia de folha , expressa em unidades de ohms por quadrado. A resist\u00EAncia de folha, em oposi\u00E7\u00E3o \u00E0 resist\u00EAncia, nos fornece a resistividade de filmes finos formados por camadas difusas, ou formada por filmes epitaxiais em semicondutores, ou ent\u00E3o de camadas policristalinas e de condutores met\u00E1licos."@pt . . "\u8584\u819C\u7535\u963B(sheet resistance)\uFF0C\u53C8\u88AB\u79F0\u4E3A\u65B9\u963B\uFF0C\u5177\u6709\u5747\u5300\u539A\u5EA6\u8584\u819C\u7535\u963B\u7684\u91CF\u5EA6\u3002\u901A\u5E38\u88AB\u7528\u4F5C\u8BC4\u4F30\u534A\u5BFC\u4F53\u63BA\u6742\u7684\u7ED3\u679C\u3002\u8FD9\u79CD\u5DE5\u827A\u7684\u4F8B\u5B50\u6709\uFF1A\u534A\u5BFC\u4F53\u7684\u63BA\u6742\u9886\u57DF\uFF08\u6BD4\u5982\u7845\u6216\u8005\u591A\u6676\u7845\uFF09\uFF0C\u4EE5\u53CA\u88AB\u4E1D\u7F51\u5370\u5237\u5230\u57FA\u5E95\u4E0A\u7684\u7535\u963B\u3002\u8584\u819C\u7535\u963B\u7684\u6982\u5FF5\u4E0E\u7535\u963B\u6216\u8005\u7535\u963B\u7387\u76F8\u5BF9\uFF0C\u53EF\u76F4\u63A5\u7528\u56DB\u7AEF\u9EDE\u6E2C\u91CF\u6280\u8853\u6D4B\u91CF\u6CD5\uFF08\u4E5F\u79F0\u4E3A\u56DB\u70B9\u63A2\u9488\u6D4B\u91CF\u6CD5\uFF09\u6216\u8303\u5FB7\u5821\u6CD5\u6765\u6D4B\u91CF\u3002 \u8584\u819C\u7535\u963B\u7528\u6B27\u59C6\u6BCF\u5E73\u65B9\uFF08\uFF09\u6765\u8BA1\u91CF\uFF0C\u53EF\u88AB\u5E94\u7528\u4E8E\u5C06\u8584\u819C\u8003\u8651\u4E3A\u4E00\u4E2A\u4E8C\u7EF4\u5B9E\u4F53\u7684\u4E8C\u7EF4\u7CFB\u7EDF\u3002\u5B83\u4E0E\u4E09\u7EF4\u7CFB\u7EDF\u4E0B\u6240\u7528\u7684\u7535\u963B\u7387\u7684\u6982\u5FF5\u5BF9\u7B49\u3002\u5F53\u4F7F\u7528\u5230\u8584\u819C\u7535\u963B\u4E00\u8BCD\u7684\u65F6\u5019\uFF0C\u7535\u6D41\u5FC5\u987B\u6CBF\u7740\u8584\u819C\u5E73\u9762\u6D41\u52A8\uFF0C\u800C\u975E\u4E0E\u5176\u5782\u76F4\u3002 \u5BF9\u4E8E\u5E38\u89C4\u4E09\u7EF4\u5BFC\u4F53\uFF0C\u7535\u963B\u53EF\u5199\u4E3A \u5176\u4E2D\u4EE3\u8868\u7535\u963B\u7387\uFF0C\u4EE3\u8868\u622A\u9762\u9762\u79EF\u800C\u4EE3\u8868\u957F\u5EA6\u3002\u622A\u9762\u9762\u79EF\u53EF\u88AB\u5206\u89E3\u4E3A\u5BBD\u5EA6\u548C\u8584\u819C\u539A\u5EA6\u3002 \u5F53\u628A\u7535\u963B\u7387\u548C\u539A\u5EA6\u653E\u5230\u4E00\u8D77\u65F6\uFF0C\u7535\u963B\u53EF\u88AB\u8BB0\u4E3A \u5373\u4E3A\u8584\u819C\u7535\u963B\u3002\u56E0\u4E3A\u5B83\u88AB\u4E00\u4E2A\u65E0\u91CF\u7EB2\u91CF\u6240\u4E58\uFF0C\u6240\u4EE5\u5355\u4F4D\u4F9D\u7136\u662F\u6B27\u59C6\u3002\u800C\u6B27\u59C6/\u5E73\u65B9\u8FD9\u4E00\u5355\u4F4D\u88AB\u4F7F\u7528\u662F\u56E0\u4E3A\u5B83\u7ED9\u51FA\u4E86\u4EE5\u6B27\u59C6\u4E3A\u5355\u4F4D\u7684\u4ECE\u4E00\u4E2A\u5E73\u65B9\u533A\u57DF\u6D41\u5411\u76F8\u5BF9\u5E73\u65B9\u533A\u57DF\u7684\u7535\u963B\uFF0C\u65E0\u8BBA\u5E73\u65B9\u533A\u57DF\u7684\u5927\u5C0F\u5982\u4F55\u3002\u5BF9\u4E8E\u6B63\u65B9\u60C5\u5F62\uFF0C\u3002\u56E0\u6B64\uFF0C\u5BF9\u4EFB\u610F\u5E73\u65B9\u5927\u5C0F\uFF0C\u6709\u3002"@zh . "Sheet resistance"@en . . . "Sheet resistance, is a measure of resistance of thin films that are nominally uniform in thickness. It is commonly used to characterize materials made by semiconductor doping, metal deposition, resistive paste printing, and glass coating. Examples of these processes are: doped semiconductor regions (e.g., silicon or polysilicon), and the resistors that are screen printed onto the substrates of thick-film hybrid microcircuits."@en . . "\u30B7\u30FC\u30C8\u62B5\u6297"@ja . "La resistivit\u00E0 di superficie, o resistivit\u00E0 superficiale, \u00E8 una grandezza che caratterizza le propriet\u00E0 di conduzione elettrica, in particolare per campioni bidimensionali o quasibidimensionali, che hanno cio\u00E8 lo spessore H molto minore della larghezza W e della lunghezza L. Esempi di questi sistemi sono i wafer di semiconduttori, e in generale i film sottili. Questa grandezza \u00E8 data da dove \u00E8 la resistivit\u00E0.Nell'ultimo passaggio \u00E8 stata usata la seconda legge di Ohm . L'unit\u00E0 di misura della resistivit\u00E0 superficiale, nel Sistema Internazionale, \u00E8 l'ohm (\u03A9). Oltre agli ohm, si usano spesso come unit\u00E0 gli \"ohm per quadrato\" (indicati con \"\u03A9/sq\" (square) o \" \u03A9/\u25FB\"), dimensionalmente uguale agli ohm, ma usati solo per la resistenza di superificie, per evitare fraintendimenti. In queste unit\u00E0, il numero di quadrati di materiale \u00E8 dato dal rapporto L/W. Ad esempio, un pezzo di materiale con resistenza di superficie Rs, lungo 3 mm e largo 1 mm, ovvero 3 quadrati, avr\u00E0 resistenza 3Rs. La resistivit\u00E0 superficiale si misura direttamente con la misura a quattro terminali o il metodo di van der Pauw."@it . . . . . . . . "La resistivit\u00E0 di superficie, o resistivit\u00E0 superficiale, \u00E8 una grandezza che caratterizza le propriet\u00E0 di conduzione elettrica, in particolare per campioni bidimensionali o quasibidimensionali, che hanno cio\u00E8 lo spessore H molto minore della larghezza W e della lunghezza L. Esempi di questi sistemi sono i wafer di semiconduttori, e in generale i film sottili. Questa grandezza \u00E8 data da dove \u00E8 la resistivit\u00E0.Nell'ultimo passaggio \u00E8 stata usata la seconda legge di Ohm . L'unit\u00E0 di misura della resistivit\u00E0 superficiale, nel Sistema Internazionale, \u00E8 l'ohm (\u03A9)."@it . . . "Vierkantsweerstand"@nl . "8786"^^ . . . . . . "Fl\u00E4chenwiderstand"@de . "Resist\u00EAncia de folha"@pt . "Der (spezifische) Fl\u00E4chenwiderstand beschreibt den elektrischen Widerstand einer elektrisch leitf\u00E4higen Schicht. Je nach Anwendung flie\u00DFt der elektrische Strom nur parallel zur Schicht oder senkrecht durch diese hindurch. Typische F\u00E4lle, bei denen der Fl\u00E4chenwiderstand eine Rolle spielt, sind das elektrische Bauteil Schichtwiderstand, aber auch die Deckelektroden von Fotodioden, Solarzellen, die Metallschichtstrukturen von Leiterplatten und die Leit- bzw. Dotierungszonen integrierter Schaltkreise, sowie die Impedanzmessung an Zellkulturen Der Oberfl\u00E4chenwiderstand dielektrischer K\u00F6rper und Fl\u00FCssigkeiten ist um viele Gr\u00F6\u00DFenordnungen h\u00F6her und bildet sich meist unerw\u00FCnscht durch die Grenzfl\u00E4che selbst oder adsorbierte Stoffe."@de . . .