MATERIAL FOTONIK DAN ELEKTRONIK Bagian I: Kristal Fotonik Dr. INDRIANA KARTINI indriana@ugm.ac.id HP 085228003584

MATERI BAGIAN I Minggu ke- Tanggal Materi I 23/2 Pendahuluan: silabus, penilaian, perspektif II 2/3 Konsep dasar: fundamental of light and matter III 9/3 Konsep dasar: struktur zat padat dan teori energi pita zat padat IV 16/3 Konsep elektromagnetisme: persamaan Maxwell dan fungsi distribusi Fermi-Dirac V 22/3 Bahan fotonik: sintesis dan sifat VI 29/3 Bahan fotonik: teknik fabrikasi dan karakterisasi VII 5/4 midterm

KOMPONEN DAN BOBOT PENILAIAN KULIAH BAGIAN I UTS 30 % TUGAS INDIVIDU 20 % UTS BERSIFAT BUKU TERBUKA

REFERENSI S. G. Johnson and J. D. Joannopoulos, Photonic Crystals: The Road from Theory to Practice, Kluwer, 2002 P. N. Prasad, Introduction to Biophotonics, John Wiley & Sons, 2003 Osamu Oda, 2007, Compound Semiconductor Bulk Materials and Characterizations, Word Scientific Publishing Co. Pte.Ltd., New Jersey. G.S. May and S.M. Sze, 2004, Fundamentals of Semiconductor Fabrication, John Wiley and Sons Inc., New York. Chih Tang Sah, 1991, Fundamentals of Solid-State Electronics, World Scientific Co.Pte. Ltd., Singapore.

TUGAS INDIVIDU membahas jurnal paper tentang sintesis dan karakterisasi bahan fotonik jurnal paper mencari sendiri dan dilampirkan judul paper tidak boleh sama pembahasan dalam bahasa Indonesia diketik rapi spasi 1,5 pada kertas A4 maksimal 5 halaman pembahasan mencakup: uraian atau bagan konsep sintesis karakterisasi hasil sintesis dan pembahasan parameter sintesis kritik atau evaluasi terhadap hasil yang diperoleh dalam jurnal paper yang dikaji dibandingkan dengan teori atau kajian serupa (jurnal lain) referensi tugas dikumpulkan dalam bentuk softkopi dengan cara dikirim via email ke indrianak@gmail.com paling lambat 30 Maret 2011 jam 14.00 keterlambatan pengumpulan tugas mengakibatkan tugas tidak dinilai. NILAI TUGAS pada rentang nilai 60-80

Photonics utilizes photons instead of electrons to: transmit, process, and store information  provides a tremendous gain in capacity and speed in information technology. is an all-encompassing light-based optical technology The invention of lasers (1960), a concentrated source of monochromatic and highly directed light, has revolutionized photonics. laser -- a concentrated source of monochromatic and highly directed light

The emphasis is on introducing basic concepts: Light as photons carries energy, and Light as waves exhibits properties such as interference and diffraction. Light propagation in a medium is dependent on its optical characteristics introducing the concept that the energies of electrons in atoms and molecules have only certain permissible discrete valuesquantization of energies, derived from the wave-like behavior of matter. In the case of molecules, the total energy can be divided into four parts: electronic, vibrational, rotational, and translational. Only electronic, vibrational, and rotational energies are quantized (have discrete values).

Light: map concept light photon particle EM wave the energy of each photon = E = h oscillating magnetic field (B) oscillating electric field (E)  = c

light-molecule interaction processes