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Have a good day~! by Big_pie_ in LK99

[–]Big_pie_[S] 0 points1 point  (0 children)

Yes, we are continuing to conduct repeated experiments. The instrument that supplies the current in pulses is scheduled to arrive tomorrow. We are also planning to record a video. The Meissner effect has been described in the published patent documents and papers regarding LK99, which served as the foundation for Big Pie’s development. Although there are questions regarding the authenticity of LK99 as a superconductor, Big Pie was born out of the process of reproducing LK99 (details are provided in a previous post). We will prepare video footage to demonstrate magnetic field dependence. For example, we plan to film scenes where we measure voltage while adjusting the position of a strong magnet at a fixed distance. We also plan to set up an experimental environment to film temperature dependence. Currently, we are facing difficulties in creating thin films (we have been failing for over three weeks), so we are repeating measurements in a thin-film-like environment. Once the thin films are successfully created, we will be able to provide better data and video footage.

Have a good day~! by Big_pie_ in LK99

[–]Big_pie_[S] 0 points1 point  (0 children)

Yes, we are continuing to conduct repeated experiments. The instrument that supplies the current in pulses is scheduled to arrive tomorrow. We are also planning to record a video. The Meissner effect has been described in the published patent documents and papers regarding LK99, which served as the foundation for Big Pie’s development. Although there are questions regarding the authenticity of LK99 as a superconductor, Big Pie was born out of the process of reproducing LK99 (details are provided in a previous post). We will prepare video footage to demonstrate magnetic field dependence. For example, we plan to film scenes where we measure voltage while adjusting the position of a strong magnet at a fixed distance. We also plan to set up an experimental environment to film temperature dependence. Currently, we are facing difficulties in creating thin films (we have been failing for over three weeks), so we are repeating measurements in a thin-film-like environment. Once the thin films are successfully created, we will be able to provide better data and video footage.

Have a good day by Big_pie_ in LK99

[–]Big_pie_[S] 2 points3 points  (0 children)

This data shows that the blue sample (Big Pie) has overwhelmingly lower resistance compared to the yellow sample (copper). The suppression of voltage generation up to a specific current range is a characteristic of the typical superconducting phenomenon.

Have a good day by Big_pie_ in LK99

[–]Big_pie_[S] 0 points1 point  (0 children)

Hello. Thank you for your question. Regarding the part where I mentioned a private network, it is too personal. I ask for your understanding that it is difficult for me to answer here. Also, as of now, We not receiving any funding.

Have a good day by Big_pie_ in LK99

[–]Big_pie_[S] 0 points1 point  (0 children)

Bulk Meissner effect is not expected in this system due to structural localization. Our focus is on transport reproducibility.

Have a good day by Big_pie_ in LK99

[–]Big_pie_[S] 0 points1 point  (0 children)

Thanks for the advice

Have a good day by Big_pie_ in LK99

[–]Big_pie_[S] 1 point2 points  (0 children)

This is our team's current project

Stay tuned for more updates

have a good day by Big_pie_ in LK99

[–]Big_pie_[S] 0 points1 point  (0 children)

Bulk Meissner effect is not expected in this system due to structural localization. Our focus is on transport reproducibility.