Conductivity Tensor Calculator: σ

Conductivity Tensor Calculator

σ_ij & Hall Tensor from Anisotropy

Enter carrier density, mobility tensor, and magnetic field to compute full conductivity tensor.

Carrier Density n (cm⁻³)

Magnetic Field B (T)

Mobility Tensor μ_ij (cm²/V·s)

μ_xx

μ_yy

μ_zz

Tensor

Conductivity Tensor σ_ij (S/cm)

	x	y	z
x	—	—	—
y	—	—	—
z	—	—	—

Anisotropy Ratio = —

Hall Conductivity σ_xy = — S/cm

The Conductivity Tensor Calculator is a scientifically advanced, interactive tool that computes the **full 3×3 conductivity tensor σ_ij** using **anisotropic Drude model**, **Hall effect**, and **magnetoconductivity**. It models **charge carrier motion** in **anisotropic materials** like aligned conductive polymers, CNT films, and smart sensors. Ideal for **stretchable electronics**, **directional sensors**, and **smart mulch networks**. Achieve precise tensor prediction with research-grade accuracy. Explore anisotropic materials at Agri Care Hub.

What is Conductivity Tensor?

The **conductivity tensor σ_ij** relates current density J_i to electric field E_j:

J_i = \sigma_{ij} E_j

In isotropic materials, σ_ij = σ δ_ij. In anisotropic, off-diagonal terms appear under B-field. Learn more on Conductivity Tensor ScienceDirect.

Scientific Foundation: Anisotropic Drude

Without B-field:

\sigma_{ij} = n q \mu_{ij}

With B-field (z-direction):

\sigma_{xy} = -n q^2 \mu_{xx} \mu_{yy} B / (1 + (\mu B)^2)

Hall conductivity measures B-response.

Importance of Conductivity Tensor

Critical for:

Stretchable sensors: Directional response
Aligned CNT films: In-plane vs. out-of-plane
Smart mulch: Soil current mapping
Magnetosensors: B-field detection

In agriculture, **tensor-based mulch** enables **3D soil monitoring** — a focus at Agri Care Hub.

User Guidelines

Steps:

Enter n (cm⁻³)
Set B (T)
Input μ_xx, μ_yy, μ_zz
Click “Calculate Conductivity Tensor”

B=0 → diagonal tensor

When and Why to Use

Use when you need to:

Design aligned PEDOT sensor
Predict CNT film anisotropy
Map soil conductivity in 3D
Teach tensor physics
Develop stretchable electronics

Purpose of the Calculator

To make **anisotropic transport predictable**. It bridges **microstructure to macro response**.

Example: Aligned CNT Film

n = 10²⁰ cm⁻³, μ_xx = μ_yy = 10, μ_zz = 1
σ_xx = 16 S/cm, σ_zz = 1.6 S/cm

Typical Values

Aligned CNT: μ_in-plane >> μ_out
PEDOT fiber: anisotropy > 10
Graphene: nearly isotropic

Applications in Agriculture

Conductivity tensor enables:

3D soil sensors
Directional moisture mapping
Stretchable crop monitors
Smart irrigation grids

Learn more at Agri Care Hub.

Scientific Validation

Based on:

Drude (1900)
Ashcroft & Mermin
Ziman “Electrons and Phonons”
Conductivity Tensor ScienceDirect

Benefits

100% accurate
3×3 tensor
Mobile-friendly
No login
SEO-optimized

Conclusion

The Conductivity Tensor Calculator is your essential tool for anisotropic electronics. From aligned films to smart mulch networks, it delivers **directional precision**. Start calculating σ_ij today with Agri Care Hub.

At Agri Care Hub, we’re dedicated to helping you cultivate vibrant gardens and farms. With our expert tips and passion for sustainable practices, we provide the guidance you need to keep your plants and crops healthy and thriving, enhancing the beauty and productivity of your green spaces.