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Advanced optical simulation of thin film devices

Designing reflective coatings using OghmaNano.

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Light propagation in solar cells

OghmaNano advanced optical solvers will enable you to understand where photons are being absorbed and generated in your devices.

Features includes:

• Transfer matrix models to understand where light is being absorbed/reflected
• An extensive materials data base with n/k parameters as a function of wavelegnth for over 2200 materials.
• The spectra of LEDs, Xenon lamps, and lasers.
• The ability to import your own material and laser spectra so your experiment and simulation match exactly.
• Advanced ray-tracing models to understand how light escapes your device.

Light/dark JV curves, dark JV curves and Suns-Voc curves

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Light JV curves

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Suns-Voc

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Dark JV curves

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Use OghmaNano's advanced algorithms and easy to use interface to simulate light and dark JV curves. Compare these results to your experimental data to understand why your device is working well or poorly. Vary the light intensity from dark to 100 suns, to understand how your device behaves over all conditions. Use OghmaNano's thermal model to understand how your device behaves over a range of temperatures. Simulation types include:

• Light JV curves
• Dark JV curves
• Suns's Voc curves
• Advanced JV curve fitting algorithms

Time domain simulation with OghmaNano

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Transient photovoltage (TPV)

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CELIV simulation

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Traneint Photocurrent

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Building a simulation

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Understand your transient experimental results with OghmaNano. Simulate Transient Photovoltage, Transient Photocurrent, CELIV experiments. OghmaNano's efficient time domain solver enables you to simulate time domain experiments in under a second. Then use OghmaNano's advanced fitting algorithms to fit the simulation to your data.

• Transient photovoltage simulation
• Transient photocurrent simulation
• CELIV simulation
• Time-of-Flight (ToF)
• Photo-CELIV
• Ultra-fast measurements

Use OghmaNano to simulate IMPS/IS experiments

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Frequency domain simulations

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Re(i) - Im(i)

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Frequency v.s. Im(i)

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Frequency v.s. Re(i)

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Simulation setup

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Get a better understanding of your data by using OghmaNano to simulate Intensity Modulated Photocurrent Spectroscopy (IMPS) and Impedance spectroscopy (IS) experiments. Understand the influence of mobility and carrier trapping, recombination and parasitic components on the frequency response of your device. Use voltage or light to module your device and watch the current and voltage change as a function of frequency. Go back and examine the time domain transients to understand how phase changes as a function of time. Key features include:

• Easy simulation setup
• Re(i) - Im(i) plots
• Frequency - Re(i)plots
• Frequency - Im(i)plots
• Examine results in both frequency and full time domain
• Quickly switch between IMPS/IS and JV simulations on the same device