One of the features of the Third Edition has been to include citations of many journal articles that supplement the presentations in the text. Particular emphasis has been put on fairly recent papers, in order to show that the subject of Classical Electromagnetism is far from a dead subject, that new insights and applications continue to be found. Students need to be encouraged to make use of such journal resources as a supplement to textbooks. Most of the citations are to the American Journal of Physics, which is the primary venue for papers that are accessible to the readership of a textbook at this level but are nevertheless nontrivial in their content.
The cutoff for journal references in the book was December 1994. A surprising number of new papers of direct relevance have come out since, and will continue to do so--indeed, there seems to be a renaissance of interest in E-and-M-related topics. (In particular, see the theme issue of Am.J.Phys. for April 2006.) A few older papers have come to our attention. Some new book references are included here also. This webpage will be updated from time to time.
Latest revision 4/10/09.
Special note: We chose not to print an Index in the book to the journal citations already there. If anyone would like to have such an index, contact Prof. Heald: mheald@frontiernet.net.
The following new citations are arranged by the page in the book to which they pertain.
p. 2, asterisk footnote. Concerning the choice of symbols for the vector quantities of electromagnetism, see Baierlein, Am.J.Phys. 68, 691 (2000).
p. 5. Plots of field-lines and arguments based on them--ubiquitous in elementary textbooks--are often fallacious: Wolf, VanHook, and Weeks, Am.J.Phys. 64, 714 (1996). See also Kalotas et al., Am.J.Phys. 64, 373 (1996); Herrmann et al., Am.J.Phys. 68, 171 (2000).
p. 8, double dagger footnote. Rohrlich, Am.J.Phys. 72, 412 (2004); Davis, Am.J.Phys. 74, 72 (2006); Heras, Am.J.Phys. 74, 743 (2006).
p. 13. Concerning averaging of fields inside the medium, see Hu, Am.J.Phys. 68, 1058 (2000).
p. 14, asterisk footnote. Chambers, Am.J.Phys. 67, 468 (1999).
p. 15, asterisk footnote. Ruppeiner et al., Am.J.Phys. 64, 698 (1996), and references therein; Erlichson, Am.J.Phys. 66, 385 (1998); Erlichson, Am.J.Phys. 67, 448 (1999); Cavicchi, Am.J.Phys. 71, 156 (2003).
p. 15, dagger footnote. Miranda, Am.J.Phys. 68, 254 (2000).
p. 18, asterisk footnote. Semon and Taylor, Am.J.Phys. 64, 1361 (1996).
p. 19, asterisk footnote. Karaoglu, Am.J.Phys. 70, 1214 (2002). Also note the famous Valentine's Day monopole: Cabrera, Phys.Rev.Letts. 48, 1378 (1982).
p. 19, dagger footnote. McKelvey, Am.J.Phys. 58, 306 (1990); MacLeod, J.Math.Phys. 36, 2951 (1995).
p. 21, dagger footnote. Assis and Bueno, IEEE Trans. Magnetics 32, 431 (1996); Casperson, Am.J.Phys. 70, 163 (2002).
p. 26, asterisk footnote. Roche, Am.J.Phys. 68, 438 (2000).
p. 28, Fig. 1-10. Rudowicz and Sung, Am.J.Phys. 71, 1080 (2003).
p. 28, asterisk footnote. Chatterjee, Am.J.Phys. 63, 643 (1995); Borin and Baffa, Am.J.Phys. 66, 449 (1998). Also see (Kn00).
p. 31. Hall, Am.J.Phys. 63, 508 (1995); Doerr and Yu, Am.J.Phys. 72, 190 (2004).
p. 34, dagger footnote. Griffiths and Walborn, Am.J.Phys. 67, 446 (1999); Aguirregabiria et al., Am.J.Phys. 70, 180 (2002); Boykin, Am.J.Phys. 71, 462 (2003); Blinder, Am.J.Phys. 71, 816 (2003) and Hu, Am.J.Phys. 72, 409 (2004).
p. 36. New book References, intermediate, (Ch00b), (Du93), (Fl08), (Gr97), (Po02), (Sa02), (Sc94), (St01), (We97), and advanced, (Br03), (Ko00), (Lo97), (Me01), (Sc98), (Sm97), (Ts97). Also see theme issue on Electromagnetism, Am.J.Phys. 74, April 2006.
p. 37, re Prob. 1-4. Singh, Am.J.Phys. 74, 923 (2006).
p. 40, Prob. 1-27 re Hall effect. Moelter et al., Am.J.Phys. 66, 668 (1998). Prob. 1-29 re similar "paradoxes." Kislev and Vaidman, Am.J.Phys. 70, 1216 (2002).
p. 58, re Section 2.6. Gonzalez et al., Am.J.Phys. 66, 228 (1998); Stump and Pollack, Am.J.Phys. 66, 802 (1998).
p. 65, re Fig. 2-12. Dearden, Am.J.Phys. 63, 821 (1995).
p. 66, dagger footnote. Hnizdo, Am.J.Phys. 65, 92 (1997); Goedecke, Am.J.Phys. 67, 45 (1999). See also Griffiths' Question #66, Am.J.Phys. 65, 941 (1997), and Answers by Stump and by Young, Am.J.Phys. 66, 1042-4 (1998).
p. 77, re uniqueness of potentials. Bartlett and Su, Am.J.Phys. 62, 683 (1994). Dagger footnote. Gil et al., Am.J.Phys. 70, 1208 (2002).
p. 79, re the smoothing property of harmonic fields. Li, Am.J.Phys. 70, 1029 (2002).
p. 86, asterisk footnote. Harp and Sorbello, Am.J.Phys. 58, 366 (1990).
p. 92. For discussion of the potential of a charge distribution of "infinite" extent, see Palma, Oyarzun, and Raff, Am.J.Phys. 71, 813 (2003).
p. 112, asterisk footnote. Cole, Comps. in Phys. 11, 287 (1997) [errata in 12, 181]; Hart, Am.J.Phys. 65, 565 (1997); Armstrong et al., Comps. in Phys. 12, 159 (1998); Murgatroyd and Jones, Am.J.Phys. 67, 156 (1999).
p. 119, references for numerical methods. (Bo98), (Ch00a), (Eh94), (El98), (Gi97), (St87), (Th97). See also DeVries, Am.J.Phys. 64, 364 (1996); Young, Comps. in Phys. 12, 432 (1998); Young, Am.J.Phys. 69, 1223 (2001).
p. 129, asterisk footnote. Saslow and Wilkinson, Am.J.Phys. 39, 1244 (1971); Walker and Johnston, Comps. in Phys. 9, 42 (1995).
p. 129, dagger footnote. Roulet and Saint Jean, Am.J.Phys. 68, 319 (2000).
p. 130. Concerning chemical (voltaic) EMFs, see Saslow, Am.J.Phys. 67, 574 (1999).
p. 132, asterisk footnote. Re eddy currents, Hahn et al., Am.J.Phys. 66, 1066 (1998); Tjossem and Cornejo, Am.J.Phys. 68, 238 (2000); Pelesko, Cesky, and Huertas, Am.J.Phys. 73, 37 (2005); vanDeursen, Am.J.Phys. 73, 1099 (2005). Re motional EMFs, Scorgie, Am.J.Phys. 66, 543 (1998); Munley, Am.J.Phys. 72, 1478 (2004).
p. 134, re displacement current. Jefimenko, Eur.J.Phys. 19, 469 (1998); French, Phys. Teach. 38, 274 (2000); Batell and Ferstl, Am.J.Phys. 71, 925 (2003).
p. 139, asterisk footnote. Challis and Sheard, Phys.Today, Dec. 2003, p. 41.
p. 141, asterisk footnote. Ehrenberg and Siday, Proc.Phys.Soc.London B62, 8 (1949); DasSarma et al. [Resource Letter], Am.J.Phys. 63, 683 (1995); Cook et al., Am.J.Phys. 63, 705 (1995); Carron, Am.J.Phys. 63, 717 (1995); Horner and Goldhaber, Am.J.Phys. 64, 1237 (1996); Kobe, Am.J.Phys. 65, 569 (1997); Yang, Am.J.Phys. 73, 742 (2005); Heras, Am.J.Phys. 75, 459 (2007). Concerning other potential functions (such as those of Debye and Hertz), see Lahart, Am.J.Phys. 72, 83 (2004).
p. 141, dagger footnote. Jackson, Am.J.Phys. 76, 704 (2008).
p. 143, re the Coulomb gauge. Rohrlich, Am.J.Phys. 70, 411 and 964 (2002); Jackson, Am.J.Phys. 70, 917 (2002); Heras, Am.J.Phys. 71, 729 (2003).
p. 144, dagger footnote (and Prob. 4-18). Romer, Am.J.Phys. 63, 777 (1995); McDonald/Rohrlich/Holstein, Am.J.Phys. 64, 15-17 (1996); Jackson, Am.J.Phys. 74, 280 (2006).
p. 147, asterisk footnote. Chandler, Am.J.Phys. 63, 956 (1995); Jackson, Am.J.Phys. 64, 855 (1996); Aguirregabiria et al., Am.J.Phys. 64, 892 (1996); Majcen et al., Am.J.Phys. 68, 857 (2000); Preyer, Am.J.Phys. 68, 1002 (2000); Preyer, Am.J.Phys. 70, 1187 (2002); Hernandes and Assis, Am.J.Phys. 71, 938 (2003); Galili and Goihbarg, Am.J.Phys. 73, 141 (2005).
p. 147, dagger footnote. Re Feynman paradox, Jefimenko, Eur.J.Phys. 20, 39 (1999); Gauthier, Am.J.Phys. 70, 1034 (2002); Kiang and Young, Am.J.Phys. 76, 1012 (2008). Re Dirac monopole, Singleton, Am.J.Phys. 66, 697 (1998).
p. 148, re sentence following Eq. (4.83). Gauthier and Wiederick, Am.J.Phys. 52, 834 (1984); Das et al., Am.J.Phys. 63, 452 (1995).
p. 149, asterisk footnote. Rohrlich (Ro90); Rohrlich, Am.J.Phys. 28, 639 (1960); Moylan, Am.J.Phys. 63, 818 (1995); Teukolsky, Am.J.Phys. 64, 1104 (1996); Hnizdo, Am.J.Phys. 65, 55 (1997); Zimmermann, Am.J.Phys. 65, 439 (1997); Rohrlich, Am.J.Phys. 65, 1051 (1997); Coisson and Guidi, Am.J.Phys. 69, 462 (2001).
p. 151, asterisk footnote (and Prob. 4-22). Donolato, Am.J.Phys. 64, 1049 (1996); Jackson, Am.J.Phys. 67, 107 (1999); Herrera and Diaz, Am.J.Phys. 76, 55 (2008).
p. 152, end of Sec. 4.7. For Thomson's theorem and applications, see Donolato, Am.J.Phys. 71, 1232 (2003).
pp. 155 and 164, asterisk footnotes. Giner et al., Am.J.Phys. 63, 749 (1995); Hnizdo, Am.J.Phys. 65, 515 (1997).
p. 156, concerning motion of field lines. Falthammer, Am.J.Phys. 74, 454 (2006).
p. 156, asterisk footnote. Belcher and Olbert, Am.J.Phys. 71, 220 (2003).
p. 159, asterisk footnote. Jefimenko, Am.J.Phys. 63, 267 (1995).
p. 160, historical References. (Ba98), (Bu94), (Da00), (Ha98), (He86b), (Hi06), (Ho96), (Ma03), (Mo97), (Mu94), (Na02), (Si97), (Su95). A Resource Letter on the biological effects of low-frequency EM fields is Hafemeister, Am.J.Phys. 64, 974 (1996).
p. 160, asterisk footnote. Galili and Kaplan, Am.J.Phys. 65, 657 (1997).
p. 160, Prob. 4-1. For more general methods of calculating inductance, see Boykin, Am.J.Phys. 67, 320 (1999).
p. 162, asterisk footnote. Heller, Am.J.Phys. 60, 17 and 274 (1992); Murgatroyd et al., Meas.Sci.Technol. 2, 1218 (1991).
p. 162, Prob. 4-9. Gauthier, Am.J.Phys. 70, 103 (2002).
p. 163, Prob. 4-10. Parker, Am.J.Phys. 70, 502 (2002).
p. 164, Prob. 4-15. Dietz, Am.J.Phys. 72, 1499 (2004).
p. 168, asterisk footnote. Ellis and Uzan, Am.J.Phys. 73, 240 (2005).
p. 169, asterisk footnote. Faccio et al., Am.J.Phys. 74, 992 (2006); Mendelson, Am.J.Phys. 74, 995 (2006).
p. 170, asterisk footnote. Baylis, Huschilt, and Wei, Am.J.Phys. 60, 788 (1992).
p. 173 (and Prob. 5-15). Concerning the evolution of localized wave packets: Brownstein, Am.J.Phys. 65, 510 (1997). Concerning propagation in a nonlinear medium: Matlin and McGee, Am.J.Phys. 65, 622 (1997).
p. 174. Concerning pedagogical hurdles, see Ambrose et al., Am.J.Phys. 67, 891 (1999).
p. 177, dagger footnote. Schaefer et al., Am.J.Phys. 75, 163 (2007).
p. 181. Concerning radiation pressure, Rothman and Boughn, Am.J.Phys. 77, 122 (2009). Concerning energy and momentum in overlapping wave pulses, see Gauthier, Am.J.Phys. 71, 787 (2003) and Rowland, Am.J.Phys. 72, 1425 (2004).
p. 182. Re Sec. 5.4: A subtler pressure-like effect is the "Casimir force"; see Hushwater, Am.J.Phys. 65, 381 (1997). Asterisk footnote, re angular momentum carried by an electromagnetic wave (photon spin): Allen and Padgett plus Yurchenko, Am.J.Phys. 70, 567-8 (2002).
p. 195, re anomalous skin depth. Singh et al., Am.J.Phys. 70, 845 (2002).
p. 195, dagger footnote (and Prob. 5-15). Boyer, Phys.Rev.E 53, 6450 (1996); Aguirregabiria et al., Am.J.Phys. 64, 1008 (1996); Boyer, Am.J.Phys. 67, 954 (1999); Schaich, Am.J.Phys. 69, 1267 (2001); Iniguez et al., Am.J.Phys. 73, 206 (2005); Garg, Am.J.Phys. 76, 6159 (2008).
p. 199, re Sec. 6.1. Hall, Am.J.Phys. 63, 508 (1995).
p. 205, asterisk footnote. Drosdoff and Widom, Am.J.Phys. 73, 973 (2005); Perez, Am.J.Phys. 74, 840 (2006). Snell's law should probably be credited to Thomas Herriot: see Dudley and Kwan, Phys.Teach. 35, 158 (1997).
p. 209. Re Brewster's angle: Futterman, Am.J.Phys. 63, 471 (1995); Ouseph et al., Am.J.Phys. 69, 1166 (2001). Re double-dagger footnote: Fearn et al., Am.J.Phys. 64, 986 (1996); Ballenegger and Weber, Am.J.Phys. 67, 599 (1999); Dominguez-Rocha et al., Am.J.Phys. 76, 621 (2008).
p. 214, re Sec. 6.3. Vitela, Am.J.Phys. 72, 393 (2004).
p. 214, asterisk footnote. Barrier penetration appears to have been discovered by Hund, Z.f.Phys. 40, 742 (1926) and 43, 805 (1927). See also Condon, Am.J.Phys. 46, 319 (1978); and Weigand and Guerra, Am.J.Phys. 64, 913 (1996); Zanella et al., Am.J.Phys. 71, 494 (2003) and Stahlhofen, Am.J.Phys. 72, 412 (2004); Papathanassoglou, Am.J.Phys. 71, 670 (2003); Voros and Johnsen, Am.J.Phys. 76, 746 (2008).
p. 216, dagger footnote. Burkhard et al., Am.J.Phys. 40, 1794 (1972).
p. 217. Ramakrishna and Armour, Am.J.Phys. 71, 562 (2003) and Am.J.Phys. 72, 413 (2004).
p. 221, References. The bizarre properties of materials with negative permittivity and permeability are discussed in Pendry and Smith, Phys.Today, June 2004, p. 37.
p. 227. For a lab experiment see Mak, Am.J.Phys. 72, 671 (2004).
p. 228, asterisk footnote. (Na02).
p. 230. Concerning the relation between momentum and energy on a transmission line, see Whatley, Am.J.Phys. 68, 958 (2000).
p. 245, double-dagger footnote. Kumar and Choudhury, Am.J.Phys. 75, 546 (2007).
p. 252, References. (Bu95), (Cr95), and (Gh98).
p. 261. In Eq.(8.26) the term involving the time derivative of the charge density, rho-dot, can be recast in terms of the current density J by invoking the continuity equation, Eq.(4.4), and expanding the divergence of the retarded [J] in a manner analogous to Eqs. (8.25) and (8.29). The result is given in Panofsky and Phillips (Pa62), p.248, Eq.(14-42). This form shows that the radiation electric field (terms proportional to 1/R) is strictly perpendicular to both the radial direction (e-sub-R) and to the radiation magnetic field in Eq.(8.30). It can be shown that the middle term in the P+P formula (which involves J but not J-dot) vanishes in the static limit, that is, when both rho and J are constant in time. See K.T. McDonald, Am.J.Phys. 65, 1074 (1997).
p. 262, asterisk footnote. Heras, Am.J.Phys. 63, 928 (1995); McDonald, Am.J.Phys. 65, 1074 (1997); Hyman, Am.J.Phys. 67, 643 (1999); Heras, Am.J.Phys. 75, 176 (2007); Larsson, Am.J.Phys. 75, 230 (2007); Heras, Am.J.Phys. 75, 262 (2007); de Melo e Souza et al., Am.J.Phys. 77, 67 (2009).
p. 263, asterisk footnote. Jefimenko and Heras, Am.J.Phys. 76, 101 (2008); Chung, Am.J.Phys. 76, 133 (2008); Heras, Am.J.Phys. 76, 592 (2008).
p. 268, asterisk footnote, and p. 285, References. Scharf (Sc94); Heras, Am.J.Phys. 63, 242 (1995); 64, 409 (1996); Bellotti and Bornatici, Am.J.Phys. 64, 568 (1996).
p. 268, dagger footnote. See also Case, Am.J.Phys. 68, 800 (2000).
p. 270, asterisk footnote. Philpott, Am.J.Phys. 64, 552 (1996).
p. 272, asterisk footnote. Dmitriyev, Am.J.Phys. 70, 717 (2002); Hu, Am.J.Phys. 71, 281 (2003).
p. 273, asterisk footnote. Holstein, Am.J.Phys. 63, 217 (1995); Jefimenko, Phys. Teach. 38, 154 (2000); Padmanabhan, Am.J.Phys. 77, 151 (2009).
p. 284, asterisk footnote. See also Hnizdo, Am.J.Phys. 66, 847 (1998); Napolitano and Ragusa, Am.J.Phys. 67, 997 (1999); Rivera and Villarroel, Am.J.Phys. 68, 41 (2000).
p. 285, References. Scharf (Sc94), Chapter 3.
p. 296ff, Section 9.3. Schantz, Am.J.Phys. 63, 513 (1995); Smith, Am.J.Phys. 69, 288 (2001).
p. 301, asterisk footnote. Derby and Olbert, Am.J.Phys. 76, 1048 (2008).
p. 302, re radiation resistance. Templin, Am.J.Phys. 64, 1379 (1996).
p. 311, re impossibility of isotropic radiation. Comay, Am.J.Phys. 70, 715 (2002); Rosenthal plus Choy, Am.J.Phys. 71, 91 (2003).
p. 314, asterisk footnote. Smith, Am.J.Phys. 70, 829 and 1056 (2002).
p. 328. For another approach to magnetic dipole radiation, see Stump and Pollack, Am.J.Phys. 65, 81 (1997).
p. 331, re the hierarchy of radiation multipoles. Bellotti and Bornatici, "Emission by multipoles," J.Phys.A, in press 1997.
p. 331, References. Cloude (Cl96). For an example of a practical radio telescope, with pyramidal antenna (see Sec. 12.8), see Parthasaratha et al., Am.J.Phys. 66, 768 (1998).
p. 339, asterisk footnote. Diamond, Am.J.Phys. 63, 179 (1995).
p. 339, dagger footnote. See answers to Question #21 by Sherwood and by Milonni, Am.J.Phys. 64, 840-842 (1996); and Diamond, Am.J.Phys. 63, 179 (1995); deGrooth, Am.J.Phys. 65, 1156 (1997); Ballenegger and Weber, Am.J.Phys. 67, 599 (1999); Guo, Am.J.Phys. 70, 1039 (2002); Berman, Am.J.Phys. 71, 917 (2003).
p. 339, double-dagger footnote. Sharma, Behringer, and Crombez, Am.J.Phys. 71, 1294 (2003).
p. 342, asterisk footnote (and Prob. 10-2). Baugh et al., Am.J.Phys. 65, 602 (1997).
p. 346, re group velocity. See four "Answers to Question #52," McDonald et al., Am.J.Phys. 66, 656-661 (1998). Also McDonald, Am.J.Phys. 69, 607 (2001).
p. 348, asterisk footnote. Holstein, Am.J.Phys. 67, 422 (1999); Smith, Am.J.Phys. 75, 25 (2007); Smith, Am.J.Phys. 76, 816 (2008). See also Pesic (Pe05).
p. 350, dagger footnote. Weiner et al., Am.J.Phys. 69, 129 (2001); Weiner et al., Am.J.Phys. 69, 129 (2001); Adler and Lock, Am.J.Phys. 70, 91 (2002); Cox et al., Am.J.Phys. 70, 620 (2002).
p. 350, re Section 10.2. The electromagnetic wave exerts a mechanical force on an atom, which can be used for laser cooling and trapping; see Shimizu and Sasada Am.J.Phys. 66, 860 (1998).
p. 352, asterisk footnote. Anderson and Martin, Am.J.Phys. 70, 1194 (2002).
p. 354. Asterisk footnote: Lewowski, Am.J.Phys. 66, 833 (1998); Perkalskis and Freeman, Am.J.Phys. 66, 931 (1998). Re operation of microwave ovens: See answer to Question #46 by Bohren, Am.J.Phys. 65, 12 (1997).
p. 355, re carrier drift velocity. Klein, Am.J.Phys. 55, 22 (1987).
p.360, re tensor dielectric constant. Perkalskis and Freeman, Am.J.Phys. 66, 816 (1998).
p. 362. Asterisk footnote: Adler et al., Am.J.Phys. 66, 607 (1998). Double-dagger footnote: For a general review of controlled fusion, including magnetic confinement of plasmas, see (Fo97).
p. 367, dagger footnote. Rohrlich, Am.J.Phys. 68, 1109 (2000); Heras, Am.J.Phys. 74, 1025 (2006); Jackson/Hnizdo, Am.J.Phys. 75, 844-849 (2007). The Jackson reference in (Ja99) is Chapter 16.
p. 369, asterisk footnote. Bochove, Am.J.Phys. 64, 1419 (1996); Bellotti and Bornatici, Phys.Rev.E 56, 7232 (1997); Templin, Am.J.Phys. 66, 403 (1998); Templin, Am.J.Phys. 67, 407 (1999); Heras and O'Connell, Am.J.Phys. 74, 150 (2006). Re "jerk", Sandin, Phys.Teach. 28, 36 (1990).
p. 372, Prob. 10-14. Amaral and Lemos, Am.J.Phys. 71, 392 (2003).
p. 380, asterisk footnote (and Prob. 11-1). Newbury et al., Princeton Problems in Physics, Princeton U.Pr., 1991, Problem 2.8 (incl. solution).
p. 381. For electromagnetic waves at radio frequencies, demonstrations somewhat analogous to Wiener's can be done with the equipment of Heller, Am.J.Phys. 65, 22 (1997).
p. 385, asterisk footnote. Kanseri et al., Am.J.Phys. 76, 39 (2008).
p. 387, re incoherent illumination. Wuenscher et al., Am.J.Phys. 70, 599 (2002).
p. 389, asterisk footnote. vanderZiel, Adv.Electron.Elec.Phys. 50, 351 (1980).
p. 398, re Section 11.5. A variant of the Michelson is the Mach-Zehnder interferometer: Nachman, Am.J.Phys. 63, 39 (1995). Concerning white-light fringes, see Kovacs et al., Am.J.Phys. 66, 985 (1998).
p. 400. Basano et al., Am.J.Phys. 64, 1257 (1996); Milonni, Am.J.Phys. 67, 476 (1999).
p. 400, double-dagger footnote. Sigismondi, Am.J.Phys. 70, 1157 (2002).
p. 401, asterisk footnote. Kleppner, Phys.Today 61(8), 8 (Aug. 2008).
p. 410. Concerning the treatment of interference and refraction using Dirac notation: Duarte, Am.J.Phys. 65, 637 (1997).
p. 416. Asterisk footnote: Mulligan, Am.J.Phys. 66, 797 (1998). Re Section 11.9, and p. 422, Prob. 11-16: Monzon and Sanchez-Soto, Am.J.Phys. 64, 156 (1996).
pp. 419 and 456-7, References. (Li95), (Ma95b), (Me95), (Wo07).
p. 426, asterisk footnote: Hu, Am.J.Phys. 69, 1280 (2001).
p. 429, asterisk footnote. Wolf and Marchand, J.Opt.Soc.Am. 54, 587 (1964); Tatarskii, J.Opt.Soc.Am.-A 12, 1254 (1995); Pritchett and Trubatch, Am.J.Phys. 72, 1026 (2004). See also (Bo99), Sec. 8.11.
p. 430, re the phase and obliquity factor in Kirchhoff's formula. Bauman, Phys. Teach. 39, 545 (2001).
p. 431, dagger footnote: Zolotorev and McDonald, Am.J.Phys. 68, 674 (2000); Chauvat et al., Am.J.Phys. 71, 1196 (2003).
p. 431, double-dagger footnote. See also Dubra and Ferrari, Am.J.Phys. 67, 87 (1999), and 68, 289 (2000).
p. 432, asterisk footnote. Ganci, Am.J.Phys. 73, 83 (2005).
pp. 438 and 462, asterisk footnotes. Kraus, J.Opt.Soc.Am.-A 6, 1196 (1989) and 9, 1132 (1992); Schultheisz, J.Opt.Soc.Am.-A 11, 774 (1994); Perkalskis and Freeman, Am.J.Phys. 64, 1526 (1996).
p.438, dagger footnote. Harrison, et al., Phys.Teach. 35, 18 and 197 (1997); Wein, Am.J.Phys. 67, 236 (1999); Kolodziejczyk et al., Am.J.Phys. 70, 169 (2002); Ferrari, Am.J.Phys. 77, 237 (2009). See also (Si98).
p. 443, asterisk footnote. Fraunhofer diffraction can be extended to holography; see, for instance, Trestar, Am.J.Phys. 64, 472 (1996).
p. 454, re the Rayleigh criterion. Rueckner and Papaliolios, Am.J.Phys. 70, 587 (2002).
p. 456, dagger footnote. Ramsay et al., Am.J.Phys. 76, 1002 (2008); Kowalczyk et al., Am.J.Phys. 77, 229 (2009).
p. 457. Optics references: (Ma02). Reference for numerical simulations: (An96).
p. 466, re partial coherence. Young and Hale, Am.J.Phys. 63, 1136 (1995).
p. 470, Section 13.2. Bellver-Cebreros and Rodriguez-Danta, Am.J.Phys. 69, 360 (2001).
p. 471, asterisk footnote. Dauger, Comps. in Phys. 10, 591 (1996); Dubra and Ferrari, Am.J.Phys. 67, 87 (1999).
p. 473, Fig. 13-7. Gillen and Guha, Am.J.Phys. 72, 1195 (2004).
p. 473, asterisk footnote. For the equivalent linear-slit analog, see Silverman and Strange, Am.J.Phys. 64, 773 (1996). Also Lock, Am.J.Phys. 64, 1307 (1996).
p. 474, asterisk footnote. Wang et al., J.Opt.Soc.Am.-A 12, 1947 (1995); Perkalskis and Freeman, Am.J.Phys. 66, 256 (1998); Almeida et al., Am.J.Phys. 67, 428 (1999); Furlan and Saavedra, Am.J.Phys. 69, 799 (2001). For so-called 'diffraction-free beams', see Durnin et al., Phys.Rev.Letts. 58, 1499 (1987); McQueen et al., Am.J.Phys. 67, 912 (1999). For pedagogical concerns, see Ambrose et al., Am.J.Phys. 67, 146 (1999).
p. 475. Concerning the relation between wave optics and the theory of lenses, see Walther, Am.J.Phys. 64, 1161 (1996).
p. 475, commentary at end of Sec. 13.2. A problem analogous to the pinhole camera is to show how a strip grating can be used as a circular polarizer: Brand, Am.J.Phys. 71, 452 (2003). Concerning the use of analogies in physical reasoning: Pask, Am.J.Phys. 71, 526 (2003).
p. 475, concerning "nondiffracting" beams. Basano and Ottonello, Am.J.Phys. 73, 826 (2005); Lopez-Mariscal and Gutierrez-Vega, Am.J.Phys. 75, 36 (2007); Siviloglou et al., Phys.Rev.Lett. 99, 213901 (2007).
p. 475, asterisk footnote. Lamb, Am.J.Phys. 62, 201 (1994); Gutzwiller, Am.J.Phys. 66, 304 (1998); Matteucci and Beeli, Am.J.Phys. 66, 1055 (1998); Arndt et al., Nature 401, 680 (1999); Brezger et al., Phys.Rev.Lettrs. 11 March 2002; Nairz, Arndt, and Zeilinger, Am.J.Phys. 71, 319 (2003); Gondran and Gondran, Am.J.Phys. 73, 507 (2005); Frabboni et al., Am.J.Phys. 75, 1053 (2007).
p. 476, asterisk footnote. An elementary introduction to the matrix formulation of ray optics is given by Quon, Phys. Teach. 34, 378 (1996).
p. 477, re ray tracing. Gatland, Am.J.Phys. 70, 1184 (2002).
p/ 479, dagger footnote. Galvez, Am.J.Phys. 74, 355 (2006); Crooker et al., Am.J.Phys. 74, 722 (2006).
p. 481, asterisk footnote. Lipson, J.Opt.Soc.Am.-A 10, 2088 (1993); Coffey, J.Opt.Soc.Am.-A 11, 2453 (1994).
p. 482, re observation of Gaussian beams, Peatross and Pack, Am.J.Phys. 69, 1169 (2001).
p. 484. Re higher-order modes, Padgett et al., Am.J.Phys. 64, 77 (1996); Brand, Am.J.Phys. 67, 55 (1999). Re monitoring a laser beam with a Fabry-Perot interferometer, Nachman and Bernstein, Am.J.Phys. 65, 202 (1997).
p. 491, asterisk footnote. Baylis, Huschilt, and Wei, Am.J.Phys. 60, 788 (1992).
p. 497, asterisk footnote. Sandin, Am.J.Phys. 59, 1032 (1991) and Phys.Teach. 33, 135 (1995); also many Letters in Phys.Today 43, May 1990, pp. 13-15 and 115-117.
p. 507. Concerning duality transformations between E and B (and many other matters), Brownstein, Am.J.Phys. 64, 1024 (1996). For 4-vector electromagnetism with magnetic charge, Singleton, Am.J.Phys. 64, 452 (1996).
p. 510. Re Eqs.(14.76), Ferraro, Am.J.Phys. 65, 412 (1997). A moving magnetic dipole acquires an electric dipole moment: see Krotkov et al., Am.J.Phys. 67, 493 (1999).
p. 520, asterisk footnote. Jefimenko, Am.J.Phys. 64, 618 (1996).
p. 521. Munoz, Am.J.Phys. 64, 1285 (1996). Re the Lagrangian density: Huang and Lin, Am.J.Phys. 70, 741 (2002).
p. 527. Re conservation laws, Goedecke, Am.J.Phys. 68, 380 (2000). Re "hidden momentum," Comay, Am.J.Phys. 64, 1028 (1996).
p. 527, References. (Ro97), (We97).
p. 531, re alternative formulations of vector analysis. Silva and Martins, Am.J.Phys. 70, 958 (2002); Hestenes, Am.J.Phys. 71, 104 (2003).
p. 536, Section A.4. Dray and Manogue, Am.J.Phys. 70, 1129 (2002).
p. 540, re Eq.(A.63) (and Prob. 2-21). Scorgie, Eur.J.Phys. 15, 272 (1994).
p. 540, re Helmholtz theorem. Baierlein, Am.J.Phys. 63, 180 (1995).
p. 548. Some interesting historical comments are given by Wessels/Bartlett, Am.J.Phys. 64, 204 (1996). Also Zimmerman, Am.J.Phys. 66, 324 (1998).
p. 549, asterisk footnote. Heras and Baez, Eur.J.Phys. 306, 23 (2009). See also (Co01).
Solutions ManualProb. 1-16. Hannay/Mills/Brownstein, Am.J.Phys. 64, 683-685 (1996).
Prob. 1-18. Calhoun, Am.J.Phys. 64, 1399 (1996).
Prob. 1-27. See new reference for p. 40.
Prob. 1-29. Ternan, J.Appl.Phys. 57, 1743 (1985).
Prob. 1-31. Cully and Donovan, Am.J.Phys. 67, 909 (1999).
Prob. 1-36. Roche, Am.J.Phys. 68, 438 (2000).
Prob. 2-1. McTavish, Am.J.Phys. 68, 577 (2000) and 69, 1112 (2001); Gauthier, Am.J.Phys. 69, 384 (2001).
Prob. 2-21. Scorgie, Eur.J.Phys. 15, 272 (1994).
Prob. 2-22. Gould, Am.J.Phys. 64, 597 and 1202 (1996).
Prob. 2-23. Farley and Price, Am.J.Phys. 69, 751 (2001).
Prob. 3-4. Simon et al., Am.J.Phys. 69, 702 (2001).
Prob. 3-22. Slisko and Brito-Orta, Am.J.Phys. 66, 352 (1998).
Prob. 4-7. Munley, Am.J.Phys. 72, 1478 (2004).
Prob. 4-9. Schieber, IEEE Trans. Magnetics 11, 948 (1975); Cadwell, Am.J.Phys. 64, 917 (1996); Aguirregabiria et al., Am.J.Phys. 65, 851 (1997); Salzman et al., Am.J.Phys. 69, 586 (2001).
Prob. 4-15. Boyer, Am.J.Phys. 69, 1277 (2001).
Prob. 4-18. See new references for p. 144. Also Griffiths, Am.J.Phys. 57, 558 (1989).
Prob. 4-22. See new reference for p. 151.
Prob. 5-3. See new reference for p. 173.
Prob. 5-15. See new reference for p. 195.
Prob. 9-17. Briggs, Austr. J. Phys. 41, 629 (1988).
Prob. 10-2. See new reference for p. 342.
Prob. 10-29. Jain et al., Am.J.Phys. 67, 714 (1999).
Prob. 11-1. See new reference for p. 380.
Prob. 11-5. See also (Bo99), Sec. 13.1.
Prob. 11-16. See new reference for p. 416.
Prob. 12-6. Moreno et al., Am.J.Phys. 65, 556 (1997).
Prob. 14-13. Hyman, Am.J.Phys. 65, 195 (1997); Munoz, Am.J.Phys. 65, 429 (1997).
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