REFERENCES[34] Fontaine, J., Dietel, W., & Diels, J.-C. IEEE J. Quantum. Elect. 19, 1467 (1983). 10[35] Valdmanis, J. A., Fork, R. L., & Gordon, J. P. Opt. Lett. 10, 131 (1985). 10[36] Valdmanis, J. & Fork, R. IEEE J. Quantum. Elect. 22, 112 (1986). 10[37] Brabec, T. & Krausz, F. Rev. Mod. Phys. 72, 545 (2000). 10[38] Asaki, M., Huang, C., Garvey, D., Zhou, J., Kapteyn, H., & Murnane, M. Opt. Lett. 18, 977(1993). 10[39] Curley, P., Spielmann, C., Brabec, T., Krausz, F., Wintner, E., & Schmidt, A. Opt. Lett. 18, 54(1993). 10[40] Proctor, B. & Wise, F. Appl. Phys. Lett. 62, 470 (1993). 10[41] Zhou, J., Taft, G., Huang, C., Murnane, M., Kapteyn, H., & Christov, I. Opt. Lett. 19, 1149(1994). 10[42] Fork, R. L., Cruz, C. H. B., Becker, P. C., & Shank, C. V. Opt. Lett. 12, 483 (1987). 10, 11[43] Spielmann, C., Curley, P., Brabec, T., & Krausz, F. IEEE J. Quantum. Elect. 30, 1100 (1994). 10[44] Stingl, A., Lenzner, M., Spielmann, C., Krausz, F., & Szipöcs, R. Opt. Lett. 20, 602 (1995). 10[45] Trebino, R. & Kane, D. J. J. Opt. Soc. Am. A 10, 1101 (1993). 10, 38, 40[46] Iaconis, C. & Walmsley, I. A. Opt. Lett. 23, 792 (1998). 10, 44[47] Taft, G., Rundquist, A., Murnane, M., Kapteyn, H., DeLong, K., Trebino, R., & Christov, I. Opt.Lett. 20, 743 (1995). 10[48] Kasper, A. & Witte, K. J. J. Opt. Soc. Am. B 15, 2490 (1998). 10[49] Dudley, J. M., Boussen, S. M., Cameron, D. M. J., & Harvey, J. D. Appl. Opt. 38, 3308 (1999).10, 39[50] Gallmann, L., Sutter, D. H., Matuschek, N., Steinmeyer, G., Keller, U., Iaconis, C., & Walmsley,I. A. Opt. Lett. 24, 1314 (1999). 10, 44, 45[51] Sutter, D. H., Steinmeyer, G., Gallmann, L., Matuschek, N., Morier-Genoud, F., Keller, U.,Scheuer, V., Angelow, G., & Tschudi, T. Opt. Lett. 24, 631 (1999). 10[52] Morgner, U., Kärtner, F. X., Cho, S. H., Chen, Y., Haus, H. A., Fujimoto, J. G., Ippen, E. P.,Scheuer, V., Angelow, G., & Tschudi, T. Opt. Lett. 24, 411 (1999). 10[53] Strickland, D. & Mourou, G. Opt. Commun. 56, 219 (1985). 10[54] Backus, S., Durfee III, C. G., Murnane, M. M., & Kapteyn, H. C. Rev. Sci. Instrum. 69, 1207(1998). 10[55] Kohler, B., Yakovlev, V. V., Wilson, K. R., Squier, J., DeLong, K. W., & Trebino, R. Opt. Lett. 20,483 (1995). 11[56] Dorrer, C., de Beauvoir, B., Le Blanc, C., Ranc, S., Rousseau, J., Rousseau, P., Chambaret, J., &Salin, F. Opt. Lett. 24, 1644 (1999). 11, 44[57] Dorrer, C. & Walmsley, I. Opt. Lett. 27, 1947 (2002). 11, 61[58] Dorrer, C., Kosik, E., & Walmsley, I. Appl. Phys. B: Lasers Opt. 74, 209 (2002). 11, 19, 57, 61,105, 107, 108[59] Dorrer, C., Kosik, E. M., & Walmsley, I. A. Opt. Lett. 27, 280 (2002). 11, 57, 61, 105, 107, 108[60] Nisoli, M., Silvestri, S. D., & Svelto, O. Appl. Phys. Lett. 68, 2793 (1996). 11, 65, 104, 165[61] Baltuška, A., Pshenichnikov, M. S., & Wiersma, D. A. Opt. Lett. 23, 1474 (1998). 11, 39[62] Cheng, Z., Fürbach, A., Sartania, S., Lenzner, M., Spielmann, C., & Krausz, F. Opt. Lett. 24,230
REFERENCES247 (1999). 11[63] Stibenz, G., Zhavoronkov, N., & Steinmeyer, G. Opt. Lett. 31, 274 (2006). 11[64] Gu, X., Xu, L., Kimmel, M., Zeek, E., O’Shea, P., Shreenath, A., Trebino, R., & Windeler, R. Opt.Lett. 27, 1174 (2002). 11, 40, 66[65] Diddams, S. A., Eaton, H. K., Zozulya, A. A., & Clement, T. S. Opt. Lett. 23, 379 (1998). 11[66] Zaïr, A., Guandalini, A., Schapper, F., Holler, M., Biegert, J., Gallmann, L., Keller, U., Couairon,A., Franco, M., & Mysyrowicz, A. Opt. Express 15, 5394 (2007). 11, 57[67] Diddams, S., Eaton, H., Zozulya, A., & Clement, T. In Lasers and Electro-Optics, pages 519–(1998). 11, 59[68] Solli, D., Ropers, C., Koonath, P., & Jalali, B. Nature 450, 1054 (2007). 11[69] Frei, F., Galler, A., & Feurer, T. J. Chem. Phys. 130, 034302 (2009). 11[70] Sussman, B. J., Lausten, R., & Stolow, A. Phys. Rev. A 77, 043416 (2008). 11[71] Tanabe, T., Tanabe, H., Teramura, Y., & Kannari, F. J. Opt. Soc. Am. B 19, 2795 (2002). 11, 30,60[72] Feurer, T., Vaughan, J., Koehl, R., & Nelson, K. Opt. Lett. 27, 652 (2002). 11, 57[73] Cohen, L. Time-frequency Analysis. Prentice Hall (1995). 16[74] Cohen, L. Proc. IEEE 77, 941 (1989). 16[75] Paye, J. IEEE J. Quantum. Electron. 28 (1992). 16[76] Bor, Z., Gogolak, Z., & Szabo, G. Opt. Lett. 14, 862 (1989). 19, 60[77] Hebling, J. Opt. Quantum. Electron. 28, 1759 (1996). 19[78] Akturk, S., Gu, X., Zeek, E., & Trebino, R. Opt. Express 12, 4399 (2004). 19[79] Cundiff, S. T., Knox, W. H., Ippen, E. P., & Haus, H. A. Opt. Lett. 21, 662 (1996). 20[80] Jones, D. J., Diddams, S. A., Ranka, J. K., Stentz, A., Windeler, R. S., Hall, J. L., & Cundiff, S. T.Science 288, 635 (2000). 22[81] Keusters, D., Tan, H., O’Shea, P., Zeek, E., Trebino, R., & Warren, W. J. Opt. Soc. Am. B 20, 2226(2003). 22, 63, 67, 69, 79, 91, 93, 217[82] Czerny, M. & Turner, A. Z. Phys. A: Hadrons Nucl. 61, 792 (1930). 25[83] Reynaud, F., Salin, F., & Barthelemy, A. Opt. Lett. 14, 275 (1989). 26[84] Froehly, C., Lacourt, A., & Viénot, J. C. Nouvelle Revue d’Optique 4, 183 (1973). 26[85] Piasecki, J., Colombeau, B., Vampouille, M., Froehly, C., & Arnaud, J. A. Appl. Opt. 19, 3749(1980). 26[86] Sáinz, C., Jourdain, P., Escalona, R., & Calatroni, J. Opt. Commun. 111, 632 (1994). 26[87] Fittinghoff, D., Bowie, J., Sweetser, J., Jennings, R., Krumbügel, M., DeLong, K., Trebino, R.,& Walmsley, I. Opt. Lett. 21, 884 (1996). 26[88] Lepetit, L., Chériaux, G., & Joffre, M. J. Opt. Soc. Am. B 12, 2467 (1995). 26, 31[89] Dorrer, C. & Joffre, M. C. R. Acad. Sci. Paris 2, 1415 (2001). 27[90] Knox, W. H., Pearson, N. M., Li, K. D., & Hirlimann, C. A. Opt. Lett. 13, 574 (1988). 27[91] Naganuma, K. & Sakai, Y. Opt. Lett. 19, 487 (1994). 27[92] Takeda, M., Ina, H., & Kobayashi, S. J. Opt. Soc. Am. 72, 156 (1982). 28, 55, 60, 158[93] Vakhtin, A., Peterson, K., Wood, W., & Kane, D. Opt. Lett. 28, 1332 (2003). 30[94] Kovács, A. P., Osvay, K., Bor, Z., & Szipöcs, R. Opt. Lett. 20, 788 (1995). 30231
- Page 1 and 2:
High-resolution InterferometricDiag
- Page 5 and 6:
AcknowledgementsMy supervisor Ian W
- Page 8 and 9:
6 High-harmonic generation 1256.1 D
- Page 10 and 11:
List of acronymsADK Ammosov, Delone
- Page 12 and 13:
Definitions and symbolsAll Fourier
- Page 14 and 15:
1. INTRODUCTIONprofile in space as
- Page 17 and 18:
2 BackgroundThis dissertation prese
- Page 19 and 20:
2.1 Metrology, ultrashort pulses, a
- Page 21 and 22:
2.1 Metrology, ultrashort pulses, a
- Page 23 and 24:
2.2 Formal introduction to ultrasho
- Page 25 and 26:
2.2 Formal introduction to ultrasho
- Page 27 and 28:
2.2 Formal introduction to ultrasho
- Page 29 and 30:
2.2 Formal introduction to ultrasho
- Page 31 and 32:
2.2 Formal introduction to ultrasho
- Page 33 and 34:
2.3 Introduction to ultrashort puls
- Page 35 and 36:
2.3 Introduction to ultrashort puls
- Page 37 and 38:
2.3 Introduction to ultrashort puls
- Page 39 and 40:
2.3 Introduction to ultrashort puls
- Page 41 and 42:
2.3 Introduction to ultrashort puls
- Page 43 and 44:
2.3 Introduction to ultrashort puls
- Page 45 and 46:
2.3 Introduction to ultrashort puls
- Page 47 and 48:
2.3 Introduction to ultrashort puls
- Page 49 and 50:
2.3 Introduction to ultrashort puls
- Page 51 and 52:
2.3 Introduction to ultrashort puls
- Page 53 and 54:
2.3 Introduction to ultrashort puls
- Page 55 and 56:
2.3 Introduction to ultrashort puls
- Page 57 and 58:
2.3 Introduction to ultrashort puls
- Page 59 and 60:
2.3 Introduction to ultrashort puls
- Page 61 and 62:
2.3 Introduction to ultrashort puls
- Page 63 and 64:
2.3 Introduction to ultrashort puls
- Page 65 and 66:
2.4 Extending ultrashort metrology
- Page 67 and 68:
2.4 Extending ultrashort metrology
- Page 69 and 70:
2.4 Extending ultrashort metrology
- Page 71 and 72:
2.4 Extending ultrashort metrology
- Page 73 and 74:
2.4 Extending ultrashort metrology
- Page 75 and 76:
3 Phase reconstruction algorithm fo
- Page 77 and 78:
3.1 Motivationration of information
- Page 79 and 80:
3.2 Quantitative noise analysis for
- Page 81 and 82:
3.3 Nature of the input datato give
- Page 83 and 84:
3.4 Sampling and uniqueness of solu
- Page 85 and 86:
3.5 Main algorithmfrom all the shea
- Page 87 and 88:
3.5 Main algorithmsituation, Γ k ,
- Page 89 and 90:
3.5 Main algorithmfor j = 1,2,...,k
- Page 91 and 92:
3.6 Implications for the relative p
- Page 93 and 94:
3.7 Signal-to-noise ratio cost of a
- Page 95 and 96:
3.8 Signal-to-noise ratio benefit o
- Page 97 and 98:
3.9 Numerical comparison of single-
- Page 99 and 100:
3.9 Numerical comparison of single-
- Page 101 and 102:
3.9 Numerical comparison of single-
- Page 103 and 104:
3.10 Summary, critical evaluation,
- Page 105 and 106:
4 Experimental implementations of m
- Page 107 and 108:
4.1 Sequential acquisition of shear
- Page 109 and 110:
4.1 Sequential acquisition of shear
- Page 111 and 112:
4.2 Simultaneous acquisition of she
- Page 113 and 114:
4.2 Simultaneous acquisition of she
- Page 115 and 116:
4.2 Simultaneous acquisition of she
- Page 117 and 118:
5 Compact Space-time SPIDERIn this
- Page 119 and 120:
5.2 Role of the measurement planetr
- Page 121 and 122:
5.3 Analysis of ST-SPIDERof design
- Page 123 and 124:
5.4 A common-path re-imaging ST-SPI
- Page 125 and 126:
5.4 A common-path re-imaging ST-SPI
- Page 127 and 128:
5.4 A common-path re-imaging ST-SPI
- Page 129 and 130:
5.4 A common-path re-imaging ST-SPI
- Page 131 and 132:
5.5 Experimental exampleRomero [295
- Page 133 and 134:
5.6 Effect of miscalibrationy (pix)
- Page 135:
5.7 Summary and outlooknow perform
- Page 138 and 139:
6. HIGH-HARMONIC GENERATIONcurrent
- Page 140 and 141:
6. HIGH-HARMONIC GENERATIONcomponen
- Page 142 and 143:
6. HIGH-HARMONIC GENERATION00−I p
- Page 144 and 145:
6. HIGH-HARMONIC GENERATION (t ) (E
- Page 146 and 147:
6. HIGH-HARMONIC GENERATIONstationa
- Page 148 and 149:
6. HIGH-HARMONIC GENERATION10080log
- Page 150 and 151:
6. HIGH-HARMONIC GENERATIONwhere re
- Page 152 and 153:
6. HIGH-HARMONIC GENERATION• Sadd
- Page 154 and 155:
6. HIGH-HARMONIC GENERATIONgiven in
- Page 156 and 157:
6. HIGH-HARMONIC GENERATIONderivati
- Page 158 and 159:
6. HIGH-HARMONIC GENERATIONPhase ma
- Page 160 and 161:
6. HIGH-HARMONIC GENERATION30(S31)2
- Page 162 and 163:
6. HIGH-HARMONIC GENERATIONwhere W
- Page 164 and 165:
6. HIGH-HARMONIC GENERATIONtheir re
- Page 166 and 167:
6. HIGH-HARMONIC GENERATIONsmall pi
- Page 168 and 169:
7. LATERAL SHEARING INTERFEROMETRY
- Page 170 and 171:
7. LATERAL SHEARING INTERFEROMETRY
- Page 172 and 173:
7. LATERAL SHEARING INTERFEROMETRY
- Page 174 and 175:
7. LATERAL SHEARING INTERFEROMETRY
- Page 176 and 177:
7. LATERAL SHEARING INTERFEROMETRY
- Page 178 and 179:
7. LATERAL SHEARING INTERFEROMETRY
- Page 180 and 181:
7. LATERAL SHEARING INTERFEROMETRY
- Page 182 and 183:
7. LATERAL SHEARING INTERFEROMETRY
- Page 184 and 185:
7. LATERAL SHEARING INTERFEROMETRY
- Page 186 and 187:
7. LATERAL SHEARING INTERFEROMETRY
- Page 188 and 189:
7. LATERAL SHEARING INTERFEROMETRY
- Page 190 and 191:
7. LATERAL SHEARING INTERFEROMETRY
- Page 192 and 193: 7. LATERAL SHEARING INTERFEROMETRY
- Page 194 and 195: 7. LATERAL SHEARING INTERFEROMETRY
- Page 196 and 197: 7. LATERAL SHEARING INTERFEROMETRY
- Page 198 and 199: 8. QUANTUM-PATH INTERFEROMETRY IN H
- Page 200 and 201: 8. QUANTUM-PATH INTERFEROMETRY IN H
- Page 202 and 203: 8. QUANTUM-PATH INTERFEROMETRY IN H
- Page 204 and 205: 8. QUANTUM-PATH INTERFEROMETRY IN H
- Page 206 and 207: 8. QUANTUM-PATH INTERFEROMETRY IN H
- Page 208 and 209: 8. QUANTUM-PATH INTERFEROMETRY IN H
- Page 210 and 211: 8. QUANTUM-PATH INTERFEROMETRY IN H
- Page 212 and 213: 8. QUANTUM-PATH INTERFEROMETRY IN H
- Page 214 and 215: 8. QUANTUM-PATH INTERFEROMETRY IN H
- Page 216 and 217: 8. QUANTUM-PATH INTERFEROMETRY IN H
- Page 218 and 219: 8. QUANTUM-PATH INTERFEROMETRY IN H
- Page 220 and 221: 8. QUANTUM-PATH INTERFEROMETRY IN H
- Page 222 and 223: 8. QUANTUM-PATH INTERFEROMETRY IN H
- Page 224 and 225: 8. QUANTUM-PATH INTERFEROMETRY IN H
- Page 226 and 227: 8. QUANTUM-PATH INTERFEROMETRY IN H
- Page 229 and 230: 9 Summary and outlookThis chapter s
- Page 231: the vacuum chamber on the laser pul
- Page 234 and 235: A. NOISE AND UNCERTAINTYdomain, so
- Page 236 and 237: A. NOISE AND UNCERTAINTYUsing the i
- Page 238 and 239: B. SIMULATION CODES FOR HIGH-HARMON
- Page 241: References[1] Rakov, V. & Uman, M.
- Page 245 and 246: REFERENCES[127] Gyuzalian, R., Sogo
- Page 247 and 248: REFERENCES[189] Kornelis, W., Biege
- Page 249 and 250: REFERENCES[254] Geindre, J. P., Aud
- Page 251 and 252: REFERENCES[313] L’Huillier, A. &
- Page 253 and 254: REFERENCESPhys. Rev. Lett. 91, 1630
- Page 255 and 256: REFERENCESMarangos, J. In Conferenc