Íàøè ïðîåêòû:

Ïðî çíàìåíèòîñò³

̳ëäðåä Äðåññåëãàóç: á³îãðàô³ÿ


̳ëäðåä Äðåññåëãàóç á³îãðàô³ÿ, ôîòî, ðîçïîâ³ä³ - ïðîôåñîð ô³çèêè òà åëåêòðîííî¿ ³íæåíå𳿠â ̲Ò
Äåíü íàðîäæåííÿ 11 ëèñòîïàäà 1930

ïðîôåñîð ô³çèêè òà åëåêòðîííî¿ ³íæåíå𳿠â ̲Ò

Äðåññåëãàóç çàê³í÷èëà êîëåäæ Ãþíòåðà â øòàò³ Íüþ Éîðê, à ïîò³ì ïðîäîâæèëà íàâ÷àííÿ â Êåìáðèäæñüêîìó óí³âåðñèòåò³, äå îòðèìàëà ×ëåíñòâî Ôóëáðàéòà (Fulbright Fellowship), à òàêîæ ó Ãàðâàðäñüêîìó óí³âåðñèòåò³. Âîíà îòðèìàëà ñòóï³íü "äîêòîðà ô³ëîñîô³¿" ó ×èêàçüêîìó óí³âåðñèòåò³ â 1958 ðîö³. Ïîò³ì âîíà ïðîâåëà äåê³ëüêà ðîê³â â Êîðíåëüñüêîìó óí³âåðñèòåò³, ïåðåä â³ä "¿çäîì äî Ëàáîðàòî𳿠˳íêîëüíà (Lincoln Lab). Âîíà îòðèìàëà çâàííÿ ïðîôåñîðà Ì²Ò â 1987 ðîö³, à 1985 ðîêó ¿é ïðèñâî¿ëè çâàííÿ "²íñòèòóòñüêîãî Ïðîôåñîðà" (Institute Professor).

Ïðîôåñîð Äðåññåëãàóç ðîçïî÷àëà ñâîþ êàð'ºðó â Ì²Ò ïðè Ëàáîðàòî𳿠˳íêîëüíà. Ïðîòÿãîì âñüîãî ÷àñó ðîáîòè âîíà ïåðåêëþ÷èëàñÿ ç äîñë³äæåíü íàäïðîâ³äíîñò³ äî ìàãíåòî-îïòèêè, à òàêîæ ïðîâåëà ñåð³þ åêñïåðèìåíò³â, ÿê³ ïðèâåëè äî ðîçóì³ííÿ ôóíäàìåíòàëüíî¿ ïðèðîäè åëåêòðîííî¿ ñòðóêòóðè ïîëóìåòàëëîâ, îñîáëèâî ãðàô³òó. Ñüîãîäí³ âîíà º îäíèì ç íàéäîñâ³ä÷åí³øèõ ôàõ³âö³â ó ãàëóç³ íàíîòåõíîëîã³é, ÿê³ áàçóþòüñÿ íà ð³çíèõ âëàñòèâîñòÿõ âóãëåöþ.

Äðåññåëãàóç áóëà íàãîðîäæåíà Íàö³îíàëüíî¿ íàóêîâî¿ ìåäàëëþ (National Medal of Science) â 1990 ðîö³ çà âèâ÷åííÿ åëåêòðîííèõ âëàñòèâîñòåé ìåòàë³â ³ ïîëóìåòàëëîâ, à òàêîæ çà çá³ëüøåííÿ âíåñêó æ³íîê â àêàäåì³÷íó íàóêó òà ³íæåíåð³þ. Ó 2000-2001 ðîêàõ âîíà áóëà Äèðåêòîðîì â³ää³ëó ïî íàóö³ â Äåðæäåï³ ÑØÀ (ì³í³ñòåðñòâî åíåðãåòèêè). Ïî÷èíàþ÷è ç 2004 ðîêó âîíà êåð³âíèê Àìåðèêàíñüêîãî ³íñòèòóòó ô³çèêè.

Ïðîôåñîð Äðåññåëãàóç òàêîæ âèêîíóâàëà îáîâ'ÿçêè ïðåçèäåíòà Àìåðèêàíñüêîãî ô³çè÷íîãî òîâàðèñòâà, ïðåçèäåíòà Àìåðèêàíñüêî¿ Àñîö³àö³¿ ç ðîçâèòêó íàóêè (American Association for the Advancement of Science), à òàêîæ ñêàðáíèêà Íàö³îíàëüíî¿ àêàäå쳿 ÑØÀ ( United States National Academy of Sciences). Äðåññåëãàóç ïðèñâÿòèëà áàãàòî ÷àñó äëÿ ï³äòðèìêè çóñèëü ³íøèõ æ³íîê, ÿê³ ïðèéìàþòü àêòèâíó ó÷àñòü ó íàóêîâèõ äîñë³äæåííÿõ.

Äðåññåëãàóç òàêîæ â³äîìà çà ñâ³é âíåñîê ó âèâ÷åííÿ òåðìîåëåêòðèêè, âëàñòèâîñòåé ãðàô³òó, ãðàô³òîâèõ àëëîòðîïíèõ ñïîëóê, âóãëåöåâèõ íàíîòðóáîê. ¯¿ ãðóïà ÷àñòî âèêîðèñòîâóº ìåòîäè îá÷èñëåííÿ çîííî¿ ñòðóêòóðè, Ðàìàí³âñüêîãî ðîçñ³þâàííÿ òà âèñîêî-ïîëüîâ³ ìàãíåòîòðàíñïîðòí³ ìåòîäè. Ñåðåä ¿¿ ó÷í³â ³ìåíà ñó÷àñíèõ ô³çèê³â, òàêèõ ÿê Íàé-×àíã ªõ (Nai-Chang Yeh), Ãðåã òèìïà (Greg Timp), Ìàíñóð Øàåãàí (Mansour Shayegan), Äæåéìñ Ñïåê (James S. Speck)) ³ Àõìåò Åðá³ëÿ (Ahmet Erbil) .

Ó 2000 ðîö³ íàãîðîäæåíà ìåäàëëþ Êîìïòîíà.

Âîíà îäðóæåíà ç Æåíå Äðåññåëãàóçîì (Gene Dresselhaus), â³äîìèì òåîðåòèêîì, ³ ìຠ÷îòèðüîõ äîðîñëèõ ä³òåé ³ ê³ëüêà îíóê³â.

Âèáðàí³ ïóáë³êàö³¿

  • M. S. Dresselhaus, G. Samsonidze, S. G. Chou, G. Dresselhaus, J. Jiang, R. Saito, and A. Jorio. «Recent Advances in Carbon Nanotube Photo-physics» (PDF).
  • M. S. Dresselhaus and P. C. Eklund (2000). «Phonons in carbon nanotubes» (PDF).Advances in Physics49: 705. DOI: 10.1080/000187300413184.
  • M. S. Dresselhaus, G. Dresselhaus, R. Saito and A. Jorio (2005). «Raman Spectroscopy of Carbon Nanotubes» (PDF).Physics Reports409: 47. DOI: 10.1016/j.physrep.2004.10.006.
  • M. S. Dresselhaus, G. Dresselhaus and A. Jorio (2004). «Unusual Properties and Structures of Carbon Nanotubes» (PDF).Annual Reviews of Materials Research34: 247. DOI: 10.1146/annurev.matsci.34.040203.114607.
  • M. S. Dresselhaus, R. Saito and A. Jorio (2004). «Semiconducting Carbon Nanotubes» (PDF).Proceedings of ICPS-27.
  • S. B. Fagan, A. G. Souza-Filho, J. Mendes-Filho, P. Corio and M. S. Dresselhaus (2005). «Electronic Properties of Ag-and CrO3-filled Single-wall Carbon Nanotubes» (PDF).Chemical Physical Letters406: 54. DOI: 10.1016/j.cplett.2005.02.091.
  • S. G. Chou, H. B. Ribeiro, E. Barros, A. P. Santos, D. Nezich, G. Samsonidze, C. Fantini, M. A. Pimenta, A. Jorio, F. Pletz-Filho, M. S. Dresselhaus, G. Dresselhaus, R. Saito, M. Zheng, G. B. Onoa, E. D. Semke, A. K. Swan, B. B. Goldberg and M. S. Unlu (2004). «Optical Characterization of DNA-wrapped Carbon Nanotube Hybrids» (PDF).Chemical Physical Letters397: 296. DOI: 10.1016/j.cplett.2004.08.117.
  • H. Son, Y. Hori, S. G. Chou, D. Nezich, G. Samsonidze, E. Barros, G. Dresselhaus, M. S. Dresselhaus (2004). «Environment Effects on the Raman Spectra of Individual Single-wall Carbon Nanotubes: Suspended and Grown on Polycrystalline Silicon» (PDF).Applied Physics Letters85: 4744. DOI: 10.1063/1.1818739.
  • E. I. Rogacheva, O. N. Nashchekina, A. V. Meriuts, S. G. Lyubchenko, O. Vekhov, M. S. Dresselhaus and G. Dresselhaus (2005). «Quantum Size Effects in PbTe / SnTe / PbTe Heterostructures» ((íåäîñòóïíà ïîñèëàííÿ)).Applied Physics Letters86: 063103. DOI: 10.1063/1.1862338.
  • M. S. Dresselhaus and G. Dresselhaus (2002). «Intercalation Compounds of Graphite» (PDF).Advances in Physics51: 1. DOI: 10.1080/00018730110113644.
  • S. G. Chou, F. Plentz-Filho, J. Jiang, R. Saito, D. Nezich, H. B. Ribeiro, A. Jorio, M. A. Pimenta, G. Samsonidze, A. P. Santos, M. Zheng, G. B. Onoa, E. D. Semke, G. Dresselhaus and M. S. Dresselhaus (2005). «Photo-excited Electron Relaxation Process Observed in Photoluminescence Spectroscopy of DNA-wrapped Carbon Nanotube» ((íåäîñòóïíà ïîñèëàííÿ)).Physical Review Letters94: 127402. DOI: 10.1103/PhysRevLett.94.127402.
  • M. S. Dresselhaus (2004). «Applied Physics: Nanotube Antennas» ((íåäîñòóïíà ïîñèëàííÿ)).Nature Materials432: 959. DOI: 10.1038/432959a.
  • Y. A. Kim, H. Muramatsu, T. Hayashi, M. Endo, M. Terrones and M. S. Dresselhaus (2004). «Thermal Stability and Structural Changes of Double-walled Carbon Nanotubes by Heat Treatment» (PDF).Chemical Physical Letters398: 87. DOI: 10.1016/j.cplett.2004.09.024.
  • S. B. Cronin, A. K. Swan, M. S. Unlu, B. B. Goldberg, M. S. Dresselhaus and M. Tinkham (2004). «Measuring Uniaxial Strain in Individual Single-wall Carbon Nanotubes: Resonance Raman Spectra of AFM Modified SWNTs» (PDF).Physical Review Letters93: 167401. DOI: 10.1103/PhysRevLett.93.167401.
  • M. S. Dresselhaus (2004). «Nanotubes: a step in synthesis» ((íåäîñòóïíà ïîñèëàííÿ)).Nature Materials3: 665. DOI: 10.1038/nmat1232.
  • C. Fantini, A. Jorio, M. Souza, A. J. Mai Jr., M. S. Strano, M. A. Pimenta and M. S. Dresselhaus (2004). «Optical Transition Energies and Radial Breathing Modes for HiPco Carbon Nanotubes from Raman Spectroscopy» (PDF).Physical Review Letters93: 147406. DOI: 10.1103/PhysRevLett.93.147406.
  • J. Heremans and M. S. Dresselhaus (2005). «Low Dimensional Thermoelectricity» (PDF).CRC Handbook - Molecular and Nano-electronics: Concepts, Challenges, and Designs.
  • G. Samsonidze, R. Saito, N. Kobayashi, A. Gruneis, J. Jiang, A. Jorio, S. G. Chou, G. Dresselhaus and M. S. Dresselhaus (2004). «Family Behavior of the Optical Transition Energies in Single-wall Carbon Nanotubes of Smaller Diameters» (PDF).Applied Physics Letters85: 5703. DOI: 10.1063/1.1829160.
  • M. S. Dresselhaus (2004). «Big Opportunities for Small Objects" (PDF).Materials Today Magazine5: 48. DOI: 10.1016/S1369-7021 (02) 01164-1.
  • M. S. Dresselhaus and H. Dai (2004). «Carbon Nanotues: Continued Innovations and Challenges» (PDF).Bulletin of the Materials Research Society29: 237.

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