HSMs: add text & pics on mesh construction

main.bib

@@ -1770,6 +1770,18 @@
   urldate = {2021-04-01}
 }
 
+@online{ednAchieveTamperproofCapacitive2015,
+  title = {Achieve Tamper-Proof Capacitive Sensing},
+  author = {EDN},
+  date = {2015-01-12T14:24:00+00:00},
+  url = {https://www.edn.com/achieve-tamper-proof-capacitive-sensing/},
+  urldate = {2025-09-03},
+  abstract = {Applications such as Point Of Sale (POS) devices and keypads for secure door locks are required to be tamper resistant. If these devices are tampered},
+  langid = {american},
+  organization = {EDN},
+  file = {/home/jaseg/Zotero/storage/47BLRUGY/achieve-tamper-proof-capacitive-sensing.html}
+}
+
 @incollection{eppenAnforderungenEinzelteileRundfunkempfanger1927,
   title = {Anforderungen an Die {{Einzelteile}} Der {{Rundfunkempfänger}}; {{Gesichtspunkte}} Für Den {{Bau}} Der {{Geräte}}},
   booktitle = {Die Wissenschaftlichen {{Grundlagen}} Des {{Rundfunkempfangs}}},
@@ -2317,6 +2329,16 @@
   file = {/home/jaseg/Zotero/storage/XRXV6BY6/Grobkonzept ePA für alle.pdf}
 }
 
+@online{groupUsingLaserDirect2012,
+  title = {Using {{Laser Direct Structuring}} ({{LDS}}) to {{Create Robust Hardware Security Devices}}},
+  author = {Group, SAE Media},
+  date = {2012-10-01},
+  url = {https://www.mobilityengineeringtech.com/component/content/article/14919-using-laser-direct-structuring-lds-to-create-robust-hardware-security-devices},
+  urldate = {2025-09-03},
+  abstract = {A wide range of devices are designed to handle, convey and store sensitive information that requires varying degrees of security from protecting low level administrative to classified and top secret information.},
+  langid = {english}
+}
+
 @article{grunenfelderFastSinglephotonDetectors2023,
   title = {Fast Single-Photon Detectors and Real-Time Key Distillation Enable High Secret-Key-Rate Quantum Key Distribution Systems},
   author = {Grünenfelder, Fadri and Boaron, Alberto and Resta, Giovanni V. and Perrenoud, Matthieu and Rusca, Davide and Barreiro, Claudio and Houlmann, Raphaël and Sax, Rebecka and Stasi, Lorenzo and El-Khoury, Sylvain and Hänggi, Esther and Bosshard, Nico and Bussières, Félix and Zbinden, Hugo},
@@ -2601,6 +2623,15 @@
   keywords = {fatigue,optical fibres,tensile strength}
 }
 
+@misc{henkelelectronicmaterialsLoctitePrintedElectronics2019,
+  title = {Loctite {{Printed Electronics}}: {{Inks}} and {{Coatings}}},
+  author = {{Henkel Electronic Materials}},
+  date = {2019-02-14},
+  url = {https://print-your-electronics-with-loctite.com/mediafiles/Bilder/Brochure_Henkel_Inks_and_Coatings.pdf},
+  urldate = {2025-09-03},
+  file = {/home/jaseg/Zotero/storage/RUKG95IR/Brochure_Henkel_Inks_and_Coatings.pdf}
+}
+
 @article{henzingerOneServerPrice,
   title = {One {{Server}} for the {{Price}} of {{Two}}: {{Simple}} and {{Fast Single-Server Private Information Retrieval}}},
   author = {Henzinger, Alexandra and Hong, Matthew M and Corrigan-Gibbs, Henry and Meiklejohn, Sarah and Vaikuntanathan, Vinod},
@@ -3302,6 +3333,14 @@
   file = {/home/jaseg/Zotero/storage/P8B7NSNB/Koehler-Sidki et al. - 2017 - Setting best practice criteria for self-differenci.pdf}
 }
 
+@article{koemmerlingDesignPrinciplesTamperResistant,
+  title = {Design {{Principles}} for {{Tamper-Resistant Smartcard Processors}}},
+  author = {Koemmerling, Oliver and Kuhn, Markus G},
+  abstract = {We describe techniques for extracting protected software and data from smartcard processors. This includes manual microprobing, laser cutting, focused ion-beam manipulation, glitch attacks, and power analysis. Many of these methods have already been used to compromise widely-fielded conditionalaccess systems, and current smartcards offer little protection against them. We give examples of lowcost protection concepts that make such attacks considerably more difficult.},
+  langid = {english},
+  file = {/home/jaseg/Zotero/storage/2AIT93LW/Koemmerling and Kuhn - Design Principles for Tamper-Resistant Smartcard P.pdf}
+}
+
 @article{kohlsVerLocVerifiableLocalization,
   title = {{{VerLoc}}: {{Verifiable Localization}} in {{Decentralized Systems}}},
   author = {Kohls, Katharina and Diaz, Claudia},
@@ -3961,6 +4000,19 @@
   langid = {english}
 }
 
+@online{mahungORWLPCMost2016,
+  title = {{{ORWL PC}}: {{The}} Most Secure Home Computer Ever},
+  shorttitle = {{{ORWL PC}}},
+  author = {Mah Ung, Gordon},
+  date = {2016-09-14},
+  url = {https://www.pcworld.com/article/416372/orwl-pc-the-most-secure-home-computer-ever.html},
+  urldate = {2025-09-03},
+  abstract = {ORWL's secure PC is hardened against physical attacks, using technology you might find in a bank's ATM.},
+  langid = {english},
+  organization = {PCWorld},
+  file = {/home/jaseg/Zotero/storage/9CKQB34P/orwl-pc-the-most-secure-home-computer-ever.html}
+}
+
 @article{maierContributionSystemDesign2019,
   title = {Contribution to the {{System Design}} of {{Contactless Energy Transfer Systems}}},
   author = {Maier, David and Heinrich, Jörg and Zimmer, Marco and Maier, Marcel and Parspour, Nejila},
@@ -5366,6 +5418,14 @@
   file = {/home/jaseg/Zotero/storage/B8JEIE23/Roetteler et al. - 2017 - Quantum Resource Estimates for Computing Elliptic .pdf}
 }
 
+@article{rogawayMoralCharacterCryptographic,
+  title = {The {{Moral Character}} of {{Cryptographic Work}}},
+  author = {Rogaway, Phillip},
+  abstract = {Cryptography rearranges power: it configures who can do what, from what. This makes cryptography an inherently political tool, and it confers on the field an intrinsically moral dimension. The Snowden revelations motivate a reassessment of the political and moral positioning of cryptography. They lead one to ask if our inability to effectively address mass surveillance constitutes a failure of our field. I believe that it does. I call for a community-wide effort to develop more effective means to resist mass surveillance. I plead for a reinvention of our disciplinary culture to attend not only to puzzles and math, but, also, to the societal implications of our work.},
+  langid = {english},
+  file = {/home/jaseg/Zotero/storage/MPMSITSP/Rogaway - The Moral Character of Cryptographic Work.pdf}
+}
+
 @article{rosaCalculationSelfinductanceSinglelayer1906,
   title = {Calculation of the Self-Inductance of Single-Layer Coils},
   author = {Rosa, E. B.},