「2D LED View the results」:修訂間差異
無編輯摘要 |
無編輯摘要 |
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| (未顯示同一使用者於中間所作的 29 次修訂) | |||
| 第3行: | 第3行: | ||
[[File:2D_LED_34.png|1000px]]<br><br> | [[File:2D_LED_34.png|1000px]]<br><br> | ||
'''● 2D Result SOP | '''● 2D Result SOP<br>''' | ||
1. Choose the project name<br> | 1. Choose the project name<br> | ||
2. Choose the data type<br> | 2. Choose the data type<br> | ||
IV And IQE (Usually Use) | (1) IV And IQE (Usually Use) | ||
2D Node-Base Data (Usually Use) | (2) 2D Node-Base Data (Usually Use) | ||
2D Element-Base Data | (3) 2D Element-Base Data | ||
2D Ray Tracing | (4) 2D Ray Tracing | ||
2D Triangular Mesh | (5) 2D Triangular Mesh | ||
2D Node Parameter Check (Usually Use) | (6) 2D Node Parameter Check (Usually Use) | ||
2D Element Parameter Check | (7) 2D Element Parameter Check | ||
2D Nsum Data | (8) 2D Nsum Data | ||
2D Eigen Wave<br> | (9) 2D Eigen Wave | ||
(10) 2D RCWA | |||
3. Selecting voltage points (if necessary)<br> | |||
x-y plot | 4. Choose the x-axis and y-axis data<br> | ||
5. Choose the figure type <br> | |||
(1) x-y plot | |||
Plot along the y-axis at a fixed x-point | (a) Plot along the y-axis at a fixed x-point | ||
Plot along the x-axis at a fixed y-point | (b) Plot along the x-axis at a fixed y-point | ||
3D triangular mesh | |||
(2) 2D triangular mesh | |||
(a) Plot the complete data for both the x-axis and y-axis | |||
Notice: Remember to normalize the 2D current density by the chip width (cm) when plotting current data.<br> | |||
(3) 3D triangular mesh | |||
6. Hold on (if necessary)<br> | |||
7. Plot<br> | |||
Notice: Remember to normalize the 2D current density by the chip width (cm) when plotting current data.<br><br> | |||
★★★ There are some result examples for this case. ★★★<br><br> | |||
'''● IV figure (linear)<br><br>''' | |||
[[File:2D_LED_35.png|1000px]]<br><br> | |||
'''● IV figure (log|y|) → positive current<br><br>''' | |||
[[File:2D_LED_36.png|1000px]]<br><br> | |||
'''● IV figure (linear) → negative current<br><br>''' | |||
[[File:2D_LED_37.png|1000px]]<br><br> | |||
'''● Band structure figure <br><br>''' | |||
★ Ec (along y-axis) <br><br> | |||
[[File:2D_LED_41.png|1000px]]<br><br> | |||
Then, enlarge a part of quantum well region.<br><br> | |||
[[File:2D_LED_42.png|1000px]]<br><br> | |||
[[File:2D_LED_43.png|1000px]]<br><br> | |||
★ Use "hold on" to plot Ec, Ev, Efn, and Efp in the same figure (along y-axis) <br><br> | |||
[[File:2D_LED_44.png|1000px]]<br><br> | |||
[[File:2D_LED_45.png|1000px]]<br><br> | |||
[[File:2D_LED_46.png|1000px]]<br><br> | |||
[[File:2D_LED_47.png|1000px]]<br><br> | |||
'''● Radiative Rates figure (along y-axis) <br><br>''' | |||
[[File:2D_LED_48.png|1000px]]<br><br> | |||
'''● Radiative Rates figure (along x-axis) <br><br>''' | |||
[[File:2D_LED_49.png|1000px]]<br><br> | |||
★ Use "hold on" to plot radiative rates for various voltages in the same figure (along x-axis) <br><br> | |||
[[File:2D_LED_51.png|1000px]]<br><br> | |||
[[File:2D_LED_52.png|1000px]]<br><br> | |||
[[File:2D_LED_53.png|1000px]]<br><br> | |||
'''● 2D Band Structure figure <br><br>''' | |||
★ Ec <br><br> | |||
[[File:2D_LED_38.png|1000px]]<br><br> | |||
Then, enlarge a part of quantum well region.<br><br> | |||
[[File:2D_LED_39.png|1000px]]<br><br> | |||
[[File:2D_LED_40.png|1000px]]<br><br> | |||
'''● 2D Radiative Rates figure <br><br>''' | |||
Then, enlarge a part of quantum well region.<br><br> | |||
[[File:2D_LED_50.png|1000px]]<br><br> | |||
Adjust the z-axis logarithmic range and enlarge the quantum well region.<br><br> | |||
[[File:2D_LED_54.png|1000px]]<br><br> | |||
[[File:2D_LED_55.png|1000px]]<br><br> | |||
'''● Parameter Check <br><br>''' | |||
You can check whether the different parameters are set correctly.<br> | |||
Ex: region number, Eg, dope, effective mass, impurity, taun(nonrad), taup(nonrad)... <br><br> | |||
★ Region Number <br><br> | |||
[[File:2D_LED_56.png|1000px]]<br><br> | |||
★ Dope <br><br> | |||
[[File:2D_LED_57.png|1000px]]<br><br> | |||
於 2025年1月5日 (日) 14:01 的最新修訂
● Press the result viewer button
● 2D Result SOP
1. Choose the project name
2. Choose the data type
(1) IV And IQE (Usually Use) (2) 2D Node-Base Data (Usually Use) (3) 2D Element-Base Data (4) 2D Ray Tracing (5) 2D Triangular Mesh (6) 2D Node Parameter Check (Usually Use) (7) 2D Element Parameter Check (8) 2D Nsum Data (9) 2D Eigen Wave (10) 2D RCWA
3. Selecting voltage points (if necessary)
4. Choose the x-axis and y-axis data
5. Choose the figure type
(1) x-y plot
(a) Plot along the y-axis at a fixed x-point
(b) Plot along the x-axis at a fixed y-point
(2) 2D triangular mesh
(a) Plot the complete data for both the x-axis and y-axis
(3) 3D triangular mesh
6. Hold on (if necessary)
7. Plot
Notice: Remember to normalize the 2D current density by the chip width (cm) when plotting current data.
★★★ There are some result examples for this case. ★★★
● IV figure (linear)
● IV figure (log|y|) → positive current
● IV figure (linear) → negative current
● Band structure figure
★ Ec (along y-axis)
Then, enlarge a part of quantum well region.
★ Use "hold on" to plot Ec, Ev, Efn, and Efp in the same figure (along y-axis)
● Radiative Rates figure (along y-axis)
● Radiative Rates figure (along x-axis)
★ Use "hold on" to plot radiative rates for various voltages in the same figure (along x-axis)
● 2D Band Structure figure
★ Ec
Then, enlarge a part of quantum well region.
● 2D Radiative Rates figure
Then, enlarge a part of quantum well region.
Adjust the z-axis logarithmic range and enlarge the quantum well region.
● Parameter Check
You can check whether the different parameters are set correctly.
Ex: region number, Eg, dope, effective mass, impurity, taun(nonrad), taup(nonrad)...
★ Region Number
★ Dope
