Crystal Viewer Tool Learning Materials
- Version 1
- by Saumitra Raj Mehrotra
- Version 3
- by Michael Anderson
Deletions or items before changed
Additions or items after changed
| 1 | [[Image(diamond.jpg, 400px)]] | |||
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| 2 | ||||
| 3 | - | By completing the Crystal Viewer Lab in [[Resource(5065)]], |
+ | By completing the Crystal Viewer Lab in [[Resource(5065)]], users will be able to understand: a) crystals,b) crystal directions, and c) Miller indices.
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| 4 | - | + | ||
| 5 | - | a) |
+ | |
| 6 | - | + | ||
| 7 | - | b) |
+ | |
| 8 | - | + | ||
| 9 | - | c) Miller indices.
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+ | |
| 10 | ||||
| 11 | ||||
| 12 | The specific objectives of the Crystal Viewer Lab are: | |||
| 13 | ||||
| 14 | [[Image(scheme.jpg, 400px)]] | |||
| 15 | ||||
| 16 | ||||
| 17 | ||||
| 18 | == Recommended Reading == | |||
| 19 | ||||
| 20 | - | + | Users who are new to crystal structures and Miller indices should consult the following materials:
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| 21 | ||||
| 22 | - | 1. Rober F. Pierret |
+ | 1. Rober F. Pierret. (1996). ''Semiconductor Device Fundamentals''. 2nd ed. Reading, MA: Addison-Wesley.
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| 23 | ||||
| 24 | - | 2. Michael Shur |
+ | 2. Michael Shur. (1990). ''Physics of Semiconductor Devices''. Englewood Cliffs, NJ: Prentice Hall.
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| 25 | ||||
| 26 | - | 3. Dragica Vasileska, Stephen M. Goodnick and G. Klimeck |
+ | 3. Dragica Vasileska, Stephen M. Goodnick and G. Klimeck. (2010). ''Computational Electronics: Semiclassical and Quantum Device Modeling and Simulation''. Boca Raton, LA: CRC Press.
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| 27 | ||||
| 28 | ||||
| 29 | ||||
| 30 | == Demo == | |||
| 31 | ||||
| 32 | [[Resource(6788)]] | |||
| 33 | ||||
| 34 | + | [[Resource(10113)]]
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| 35 | ||||
| 36 | ||||
| 37 | == Theoretical descriptions == | |||
| 38 | ||||
| 39 | * [[Resource(9134)]] | |||
| 40 | ||||
| 41 | * [[Resource(9136)]] | |||
| 42 | ||||
| 43 | * [[Resource(5227)]] | |||
| 44 | ||||
| 45 | * [[Resource(5752)]] | |||
| 46 | ||||
| 47 | ||||
| 48 | == Tool Verification == | |||
| 49 | ||||
| 50 | [[Resource(9156)]] | |||
| 51 | ||||
| 52 | ||||
| 53 | ||||
| 54 | - | == |
+ | == Examples ==
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| 55 | ||||
| 56 | 1. [[Resource(6818)]] | |||
| 57 | ||||
| 58 | 2. [[Resource(6821)]] | |||
| 59 | ||||
| 60 | 3. [[Resource(6824)]] | |||
| 61 | ||||
| 62 | ||||
| 63 | ||||
| 64 | == Exercises and Homework Assignments == | |||
| 65 | ||||
| 66 | 1. [[Resource(4200)]] | |||
| 67 | ||||
| 68 | 2. [[Resource(5144)]] | |||
| 69 | ||||
| 70 | 3. [[Resource(8243)]] | |||
| 71 | ||||
| 72 | 4. [[Resource(9361)]] | |||
| 73 | ||||
| 74 | ||||
| 75 | == Solutions to Exercises == | |||
| 76 | ||||
| 77 | - | Solutions |
+ | Solutions are provided only to instructors!
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| 78 | ||||
| 79 | ||||
| 80 | ||||
| 81 | - | == |
+ | == Evaluation ==
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| 82 | ||||
| 83 | - | This test will assess |
+ | This test will assess the users conceptual understanding of the physical, mathematical and computational knowledge related to the identification of crystal structures and the calculation of Miller indices.
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| 84 | ||||
| 85 | [[Resource(9456)]] | |||
| 86 | ||||
| 87 | ||||
| 88 | ||||
| 89 | - | == |
+ | == Challenge ==
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| 90 | ||||
| 91 | - | + | Users are challenged to integrate what they have learned about crystal lattices.
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| 92 | ||||
| 93 | [[Resource(9154)]] | |||