Lazer nurlari bilan shakllantirilgan kremniy nanoklasterlarini SiO2/Si tizimining elektrofizik xossalariga ta’siri

Abdullayev R I; Mamirov M; Ismatullaeva M; Baxtiyorjonov O; Mamadaliev S

Maqolada lazer nurlari bilan nurlantirilgan oksidlanmagan namunalar katodolyuminesentsiya spektrida 2,25 eV foton energiyali cho‘qqi paydo bo‘lishi aniqlandi. SiO₂/Si tizim katodolyuminesentsiya spektrida yangi turdagi oksid qatlam hosil bo‘lishi tufayli qo‘shimcha spektral cho‘qqi paydo bo‘lishi, lazer nurlari bilan nurlantirilgan SiO₂/Si tizim volt-amper xarakteristikasining teskari sohasida me’yoriy holatdan chetlashuvchi bog'liqlik borligi aniqlandi.

Журнал номиADPI Ilmiy xabarnomasi
Нашр номи2
Кўришлар сони 75

Internet ҳавола http://kutubxona.adpi.uz/section/index?id=29

DOI

UzSCI тизимида яратилган сана 27-02-2024

Ўқишлар сони 75

Нашр санаси 05-06-2023

Мақола тилиO'zbek

Саҳифалар сони58-62

Калит сўзлар

lazer nurlari

katodolyuminesentsiya

oksid qatlam

volt-amper xarakteristika

Ўзбек

Maqolada lazer nurlari bilan nurlantirilgan oksidlanmagan namunalar katodolyuminesentsiya spektrida 2,25 eV foton energiyali cho‘qqi paydo bo‘lishi aniqlandi. SiO₂/Si tizim katodolyuminesentsiya spektrida yangi turdagi oksid qatlam hosil bo‘lishi tufayli qo‘shimcha spektral cho‘qqi paydo bo‘lishi, lazer nurlari bilan nurlantirilgan SiO₂/Si tizim volt-amper xarakteristikasining teskari sohasida me’yoriy holatdan chetlashuvchi bog'liqlik borligi aniqlandi.

Калит сўзлар

lazer nurlari

katodolyuminesentsiya

oksid qatlam

volt-amper xarakteristika

№ Муаллифнинг исми Лавозими Ташкилот номи

1 Abdullayev R.I. o'qituvchi ADU

2 Mamirov M.. o'qituvchi ADU

3 Ismatullaeva M.. o'qituvchi ADU

4 Baxtiyorjonov O.. Talaba ADPI

5 Mamadaliev S.. Talaba ADPI

№ Ҳавола номи

1 1. Вейко В.П., Дышловенко С.С., Скворцов А.М. Лазерное микроструктурирование поверхности кремния // Научно-технический сборник «Диагностика и функциональный контроль качества оптических материалов». – СПб: СПбГУ ИТМО, 2004. – Ч. 2. – С. 138–153.

2 2. Serano Justin R. and David G. Cahil. Micron-scale buckling of SiO2 on Si // Appl. Phis. – 2002. – V. 92. – P. 7606–7610.

3 3. Скворцов А.М., Плотников В.В., Соколов В.И. Формирование нанокластеров кремния в структуре кремний/диоксид кремния // Изв. вузов. Приборостроение. – 2006. – Т. 48. – № 3. – С. 62–67.

4 4. Medvid Аrthur, Dmitruk Igor, Onufrijevs Pavels, Pundyk Iryna. Properties of Nanostructure Formed on SiO2/Si Interface by Laser Radiation // Solid State Phenomena. – 2007. – V. 131–133. – P. 559–562.

5 5. Medvid А., Onufrijevs P., Kropman D., Mellikov E., Mukepavela F., Bakradze F. Low-K factor of SiO2 layer on Si irradiated by YAG:Nd laser // Journal of Non-Crystalline Solids. – 2007. – V. 353. – № 5–7. – P. 703–707.

6 6. Bai G.F., Wang Y.Q., Ma Z.C., Zong W.H. and Qin G.G. Electroluminescence from Au/native silicon oxide layer/pC-Si and Au/native silicon oxide layer/nC-Si structures under reverse biases. // J. Phys.: Condens. Matter. 1998. V. 10. Р. 717–721.

7 7. Lin C.-F., Liu C.W., Chen M.-J., Lee M.H. and Lin I.C. Infrared electroluminescence from metal-oxide-semiconductor structures on silicon. // J. Phys.: Condens. Matter. 2000. V. 12. Р. 205–210.

8 8. Kim K., Suh M.S., Kim T.S., Youn C.J., Suh E.K., Shin Y.J., Lee K.B. and Lee H.J. Room-temperature visible photoluminescence from silicon-rich oxide layers deposited by an electron cyclotron resonance plasma source. // Appl. Phys. Lett. 1996. V. 69. Р. 3908– 3910.

9 9. Torchinska T., Aguilar-Hernandez J., Morales-Rodriguez M., Mejia-Garcia C., ContrerasPuente G., Becerril Espinosa F.G., Bulakh B.M., Schverbina L.V., Goldstein Y., Many A. and Jedrzejewski J. Comparative investigation of photiluminiscence of silicon wire structures and silicon oxide films. // Journal of Physics and Chemistry of Solids. 2002. V. 63. Р. 561–568.

10 10. Torchynska T.V., Bulakh B.M., Polupan G.P., Palacios Gomez J., Flores Gonzalez H.A., Bacarril Espinoza F.G., Ita Torre A. and Scherbina L.V. Comparative investigation of surface structure, photoluminescence and its excitation in silicon wires. // Journal of Electron Spectroscopy and Related Phenomena. 2001. V. 114–116. Р. 235–241.

Кутилмоқда

№	Муаллифнинг исми	Лавозими	Ташкилот номи
1	Abdullayev R.I.	o'qituvchi	ADU
2	Mamirov M..	o'qituvchi	ADU
3	Ismatullaeva M..	o'qituvchi	ADU
4	Baxtiyorjonov O..	Talaba	ADPI
5	Mamadaliev S..	Talaba	ADPI

№	Ҳавола номи
1	1. Вейко В.П., Дышловенко С.С., Скворцов А.М. Лазерное микроструктурирование поверхности кремния // Научно-технический сборник «Диагностика и функциональный контроль качества оптических материалов». – СПб: СПбГУ ИТМО, 2004. – Ч. 2. – С. 138–153.
2	2. Serano Justin R. and David G. Cahil. Micron-scale buckling of SiO2 on Si // Appl. Phis. – 2002. – V. 92. – P. 7606–7610.
3	3. Скворцов А.М., Плотников В.В., Соколов В.И. Формирование нанокластеров кремния в структуре кремний/диоксид кремния // Изв. вузов. Приборостроение. – 2006. – Т. 48. – № 3. – С. 62–67.
4	4. Medvid Аrthur, Dmitruk Igor, Onufrijevs Pavels, Pundyk Iryna. Properties of Nanostructure Formed on SiO2/Si Interface by Laser Radiation // Solid State Phenomena. – 2007. – V. 131–133. – P. 559–562.
5	5. Medvid А., Onufrijevs P., Kropman D., Mellikov E., Mukepavela F., Bakradze F. Low-K factor of SiO2 layer on Si irradiated by YAG:Nd laser // Journal of Non-Crystalline Solids. – 2007. – V. 353. – № 5–7. – P. 703–707.
6	6. Bai G.F., Wang Y.Q., Ma Z.C., Zong W.H. and Qin G.G. Electroluminescence from Au/native silicon oxide layer/pC-Si and Au/native silicon oxide layer/nC-Si structures under reverse biases. // J. Phys.: Condens. Matter. 1998. V. 10. Р. 717–721.
7	7. Lin C.-F., Liu C.W., Chen M.-J., Lee M.H. and Lin I.C. Infrared electroluminescence from metal-oxide-semiconductor structures on silicon. // J. Phys.: Condens. Matter. 2000. V. 12. Р. 205–210.
8	8. Kim K., Suh M.S., Kim T.S., Youn C.J., Suh E.K., Shin Y.J., Lee K.B. and Lee H.J. Room-temperature visible photoluminescence from silicon-rich oxide layers deposited by an electron cyclotron resonance plasma source. // Appl. Phys. Lett. 1996. V. 69. Р. 3908– 3910.
9	9. Torchinska T., Aguilar-Hernandez J., Morales-Rodriguez M., Mejia-Garcia C., ContrerasPuente G., Becerril Espinosa F.G., Bulakh B.M., Schverbina L.V., Goldstein Y., Many A. and Jedrzejewski J. Comparative investigation of photiluminiscence of silicon wire structures and silicon oxide films. // Journal of Physics and Chemistry of Solids. 2002. V. 63. Р. 561–568.
10	10. Torchynska T.V., Bulakh B.M., Polupan G.P., Palacios Gomez J., Flores Gonzalez H.A., Bacarril Espinoza F.G., Ita Torre A. and Scherbina L.V. Comparative investigation of surface structure, photoluminescence and its excitation in silicon wires. // Journal of Electron Spectroscopy and Related Phenomena. 2001. V. 114–116. Р. 235–241.